在线等d=-10a10=m n-10Am nfx=10/19^x是指数函数及其性质
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In C, what is the difference between using ++i and i++, and which should be used in the incrementation block of a for loop?
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++i will increment the value of i, and then return the incremented value.
(i is 2, j is 2)
i++ will increment the value of i, but return the original value that i held before being incremented.
(i is 2, j is 1)
For a for loop, either works. ++i seems more common, perhaps because that is what is used in .
In any case, follow the guideline "prefer ++i over i++" and you won't go wrong.
There's a couple of comments regarding the efficiency of ++i and i++. In any non-student-project compiler, there will be no performance difference.
You can verify this by looking at the generated code, which will be identical.
The efficiency question is interesting... here's my attempt at an answer:
As On Freund notes, it's different for a C++ object, since operator++() is a function and the compiler can't know to optimize away the creation of a temporary object to hold the intermediate value.
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i++ is known as Post Increment whereas ++i is called Pre Increment.
i++ is post increment because it increments i's value by 1 after the operation is over.
Lets see the following example:
int i = 1,
Here value of j = 1 but i = 2. Here value of i will be assigned to j first then i will be incremented.
++i is pre increment because it increments i's value by 1 before the operation.
It means j = will execute after i++.
Lets see the following example:
int i = 1,
Here value of j = 2 but i = 2. Here value of i will be assigned to j after the i
incremention of i.
Similarly ++i will be executed before j=i;.
For your question
which should be used in the incrementation block of a for loop? the answer is, you can use any one.. no matter. It will execute your for loop same no. of times.
for(i=0; i&5; i++)
printf("%d ",i);
for(i=0; i&5; ++i)
printf("%d ",i);
Both the loops will produce same output. ie 0 1 2 3 4.
It only matters where you are using it.
for(i = 0; i&5;)
printf("%d ",++i);
In this case output will be 1 2 3 4 5.
2,59742852
3,10861428
Please don't worry about the "efficiency" (speed, really) of which one is faster.
We have compilers these days that take care of these things.
Use whichever one makes sense to use, based on which more clearly shows your intent.
49.2k1164121
++i increments the value, then returns it.
i++ returns the value, and then increments it.
It's a subtle difference.
For a for loop, use ++i, as it's slightly faster. i++ will create an extra copy that just gets thrown away.
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The reason ++i can be slightly faster than i++ is that i++ can require a local copy of the value of i before it gets incremented, while ++i never does. In some cases, some compilers will optimize it away if possible... but it's not always possible, and not all compilers do this.
I try not to rely too much on compilers optimizations, so I'd follow Ryan Fox's advice: when I can use both, I use ++i.
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i++ :- In this scenario first the value is assigned and then increment happens.
++i :- In this scenario first the increment is done and then value is assigned
Below is the image visualization and also here is a nice practical video ( ) which demonstrates the same.
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The effective result of using either is identical.
In other words, the loop will do the same exact thing in both instances.
In terms of efficiency, there could be a penalty involved with choosing i++ over ++i.
In terms of the language spec, using the post-increment operator should create an extra copy of the value on which the operator is acting.
This could be a source of extra operations.
However, you should consider two main problems with the preceding logic.
Modern compilers are great.
All good compilers are smart enough to realize that it is seeing an integer increment in a for-loop, and it will optimize both methods to the same efficient code.
If using post-increment over pre-increment actually causes your program to have a slower running time, then you are using a terrible compiler.
In terms of operational time-complexity, the two methods (even if a copy is actually being performed) are equivalent.
The number of instructions being performed inside of the loop should dominate the number of operations in the increment operation significantly.
Therefore, in any loop of significant size, the penalty of the increment method will be massively overshadowed by the execution of the loop body.
In other words, you are much better off worrying about optimizing the code in the loop rather than the increment.
In my opinion, the whole issue simply boils down to a style preference.
If you think pre-increment is more readable, then use it.
Personally, I prefer the post-incrment, but that is probably because it was what I was taught before I knew anything about optimization.
This is a quintessential example of premature optimization, and issues like this have the potential to distract us from serious issues in design.
It is still a good question to ask, however, because there is no uniformity in usage or consensus in "best practice."
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I assume you understand the difference in semantics now (though honestly I wonder why
people ask 'what does operator X mean' questions on stack overflow rather than reading,
you know, a book or web tutorial or something.
But anyway, as far as which one to use, ignore questions of performance, which are
unlikely important even in C++.
This is the principle you should use when deciding
which to use:
Say what you mean in code.
If you don't need the value-before-increment in your statement, don't use that form of the operator.
It's a minor issue, but unless you are working with a style guide that bans one
version in favor of the other altogether (aka a bone-headed style guide), you should use
the form that most exactly expresses what you are trying to do.
QED, use the pre-increment version:
for (int i = 0; i != X; ++i) ...
++i is pre-increment the other is post-increment
i++: gets the element and then increments it.
++i: increments i and then returns the element
int i = 0;
printf("i: %d\n", i);
printf("i++: %d\n", i++);
printf("++i: %d\n", ++i);
426k60489801
++i and i++ works same if you are not writing them in a function.
If you use something like function(i++) or function(++i) you can see the difference.
function(++i) says first increment i by 1, after that put this i into the function with new value.
function(i++) says put first i into the function after that increment i by 1.
printf("%d\n",pow(++i,2));//it prints 25 and i is 5 now
printf("%d",pow(i++,2));//it prints 16 i is 5 now
10.9k1692168
++i (Prefix operation): Increments and then assigns the value
(eg) : int i = 5 , int b = ++i
In this case, 6 is assigned to b first and then increments to 7 and so on.
i++ (Postfix operation): Assigns and then increments the value
(eg) : int i = 5 , int b = i++
In this case, 5 is assigned to b first and then increments to 6 and so on.
Incase of for loop : i++ is mostly used because, normally we use the starting value of i before incrementing in for loop.But depending on your program logic it may vary.
The Main Difference is
i++ Post(After Increment) and
(Before Increment)
post if i =1
the loop increments like 1,2,3,4,n
the loop increments like 2,3,4,5,n
a=i++ means i value will be stored in a without incrementing
a=++i means i value will be stored with incrementing...
Here is the example to understand the difference
printf("%d %d",i++,++i);
output:10 12/11 11(based on evaluation of parameters in printf statement which vary from compiler to compiler)
Explaination:
i++->'i' is printed and then increments.(Prints 10 but 'i' will becomes 11)
++i->'i' value increments and prints the value.(Prints 12 & value of 'i' also 12)
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1.,&,&,&,&,&,&,&,&*.&A&Novel&Mechanism&of&gamma/delta&T-Lymphocyte&and&Endothelial&Activation&by&Shear&Stress&The&Role&of&Ecto-ATP&Synthase&beta&Chain.&.&&):&410-417&&
2.,&,&,&,&,&*:&Activation&of&peroxisome&proliferator-activated&receptor-gamma&downregulates&soluble&epoxide&hydrolase&in&cardiomyocytes..&2011;&&38(6)&:&358-364
3.,&,&,&,&,&,&,&*.&Prostaglandin&E2&promotes&endothelial&differentiation&from&bone&marrow-derived&cells&through&K&activation.&):e23554.&
3.,&,&,&,&,&,&,&,&,&,*.&K&potentiates&hypertonicity-induced&apoptosis&by&suppressing&NF&kappa&B/COX-2&in&medullary&interstitial&cells..&):&
4.Zhu&S,&Xue&R,&Zhao&P,&Fan&FL,&Kong&X,&Zheng&S,&Han&Q,&Zhu&Y,&Wang&N,&Yang&J*,&Guan&Y*.&Targeted&disruption&of&the&prostaglandin&E2&EP2&receptor&exacerbates&vascular&neointima&formation&in&mice.&ArteriosclerThrombVasc&Biol.&):1739-47&
5.Li&J,&Chi&Y,&Wang&C,&Wu&J,&Yang&H,&Zhang&D,&Zhu&Y,&Wang&N,Yang&J*,&Guan&Y*.&Pancreatic-derived&factor&promotes&lipogenesis&in&the&liver:&Role&of&FOXO1&signaling&pathway.Hepatology.&):1906-16&
6.Zhou&Y,&Kong&X,&Zhao&P,&Yang&H,&Chen&L,&Miao&J,&Zhang&X,&Yang&J,&Ding&J,&Guan&Y*.&Renoprotective&Role&of&Peroxisome&Proliferator-activated&Receptor-Alpha&in&Adriamycin-induced&Podocyte&Injury.Kidney&Int.02–1311&
7.Zhang&D,&Kong&X,&Wang&K,&Mao&X,&Yan&X,&Wang&Y,&Liu&S,&Zhang&X,&Li&J,&Chen&L,&Wu&J,&Wei&M,&Yang&J,&and&Guan&Y*.&Proteomics&analysis&reveals&diabetic&kidney&as&a&ketogenic&organ&in&type&2&diabetes.&.6-E303
8.Yang&J,&Zhou&Y,&Guan&Y*..&PPARγ&as&a&therapeutic&target&in&diabetic&nephropathy&and&other&renal&diseases[J].&Current&opinion&in&nephrology&and&hypertension,&):&97-105.
9.,,&*,&,&,&,&,&,&.&Effect&of&PGE2&on&DA&tone&by&EP4&modulating&Kv&channels&with&different&oxygen&tension&between&preterm&and&term..&&)&:&58-65&
8.,&,&,&,&,&,&,&*.Mitochondrial&reactive&oxygen&species&promote&p65&nuclear&translocation&mediating&high-phosphate-induced&vascular&calcification&in&vitro&and&in&vivo..&&):&&&
9.,&,&,&,&*.&High&glucose&stimulates&TNF&alpha&and&MCP-1&expression&in&ratµglia&via&ROS&and&NF-kappa&B&pathways..&)&:&188-193&
10.,&,&,&,&,&,&,&,&*,&.&Proteomic&Analysis&of&Human&Transplanted&Submandibular&Gland&in&Patients&with&Epiphora&after&Transplantation..&):&&&
11.,&,&,&,&,&,&,&:&Angiotensin&II&increases&periostin&expression&via&Ras/p38&MAPK/CREB&and&ERK1/2/TGF-beta&1&pathways&in&cardiac&fibroblasts.Cardiovasc&Res.&&2011;&&&91(1):&80-89&
12.Cui&XB,&Wang&C,&Li&L,&Fan&D,&Zhou&Y,&Wu&D,&Cui&QH,&Fu&FY,&Wu&LL*.&Insulin&decreases&myocardial&adiponectin&receptor&1&expression&via&PI3K/Akt&and&FoxO1&pathway[J].&Cardiovascular&research,&):&69-78.
13.,,&,&,&,&.&Adiponectin&Induces&Interleukin-6&Production&and&its&Underlying&Mechanism&in&Adult&Rat&Cardiac&Fibroblasts..&):&&&
14.,&,&,&,&,&,&,&*,&.&Expression&of&ghrelin&in&human&salivary&glands&and&its&levels&in&saliva&and&serum&in&Chinese&obese&children&and&adolescents..&2011;&&56(4):&389-394&
15.Ding&QW,&Zhang&Y,&Cong&X,&Cai&ZG,&Han&JY,&Su&YC,&Wu&LL*,&Yu&GY*.&Confocalµscopy&with&double&immunofluorescence&staining&reveals&the&functional&transient&receptor&potential&vanilloid&subtype&1&expressed&in&myoepithelial&cells&of&human&submandibular&glands.&Microsc&Res&Tech.&2011&
16.,&,&,&,&,&,&,&,&*.&Role&of&sulfhydryl-dependent&dimerization&of&soluble&guanylylcyclase&in&relaxation&of&porcine&coronary&artery&to&nitric&oxide.Cardiovasc&Res.&):&565-572&&
17.,&,&,,.&mTOR&and&the&differentiation&of&mesenchymal&stem&cells..&):&501-510&
18..&Influence&of&fasting,&insulin&and&glucose&on&ghrelin&in&the&dorsal&vagal&complex&in&rats..&):&257-262
19.,&,&,&,&,&,&,&,&,&,&,&,&,&.&Cartilage&Oligomeric&Matrix&Protein&Inhibits&Vascular&Smooth&Muscle&Calcification&by&Interacting&With&Bone&Morphogenetic&Protein-2..&):&917-U79
20.Kong&W*:&Matrix&Metalloproteinase-9&vs.&Troponin&T.&Circ&J.&(12):2757-8.&
21.Zhang&Y,&Chen&X,&Xu&X,&Wang&X,&Wang&X,&Yuan&G,&Sun&D,&Ka&W,&He&D,&Wen&Z*,&Yao&W*.&Knockdown&of&hTERT&alters&biophysical&properties&of&K562&cells&resulting&in&decreased&migration&rate&in&vitro.&Cell&Biochem.Biophys.&):595-603&
22.Chen&D,&Zhang&X,&Du&Y,&Jia&B,&Ka&W,&Sun&D,&Yao&W*,&Wen&Z*.Effects&of&Gekko&sulfated&polysaccharide–protein&complex&on&the&defective&biorheological&characters&of&dendritic&cells&under&tumorµenvironment[J].&Cell&biochemistry&and&biophysics,&):&193-201.
生物化学与分子生物学系
1.Huang&Y,&Wu&J,&Li&R,&Wang&P,&Han&L,&Zhang&Z,&Tong&T*.Cell&Mol&Life&Sci.&):893-901.
2.Cao&X,&Xue&L,&Han&L,&Ma&L,&Chen&T,&Tong&T*.J&Biol&Chem.&(38):33447-56.
3.Niu&J,&Chen&T,&Han&L,&Wang&P,&Li&N,&Tong&T*.&Transcriptional&activation&of&the&senescence®ulator&Lsh&by&E2F1.Mech&Ageing&Dev.&):180-6.
4.Li&N,&Li&Q,&Cao&X,&Zhao&G,&Xue&L,&Tong&T*.FEBS&Lett.):3106-12.
5.Li&R,&Ma&L,&Huang&Y,&Zhang&Z,&Tong&T*.Biogerontology.&):517-25.
6.Yang&X,&Yu&W,&Shi&L,&Sun&L,&Liang&J,&Yi&X,&Li&Q,&Zhang&Y,&Yang&F,&Han&X,&Zhang&D,&Yang&J,&Yao&Z,&Shang&Y*.Mol&Cell.):39-50.
7.Li&Y,&Sun&L,&Zhang&Y,&Wang&D,&Wang&F,&Liang&J,&Gui&B,&Shang&Y*.J&Biol&Chem.&):13925-36.
8.Shi&L,&Sun&L,&Li&Q,&Liang&J,&Yu&W,&Yi&X,&Yang&X,&Li&Y,&Han&X,&Zhang&Y,&Xuan&C,&Yao&Z,&Shang&Y*.ProcNatlAcad&Sci.&):7541-6.
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12.Liu&X,&Wang&D,&Zhao&Y,&Tu&B,&Zheng&Z,&Wang&L,&Wang&H,&Gu&W,&Roeder&RG,&Zhu&WG*.ProcNatlAcad&Sci.&):1925-30.
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21.Liu&Y,&Li&Y,&Li&T,&Lu&H,&Jia&Z,&Wang&W,&Chen&P,&Ma&K,&Zhou&C*.&Cell&Mol&Life&Sci.&):1969-82.
22.Yan&L,&Jia&Z,&Cui&J,&Yang&H,&Yang&H,&Zhang&Y*,&Zhou&C*.Dev&Growth&Differ.&):772-9.
23.Hu&X,&Li&T,&Zhang&C,&Liu&Y,&Xu&M,&Wang&W,&Jia&Z,&Ma&K,&Zhang&Y,&Zhou&C*.J&Cell&Mol&Med.&):1865-77.
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28.,&,&,&,&,&,&,&*.&Impact&of&cytoplasmic&alpha&fetoprotein&in&RAR-mediated&expression&of&GADD153.&[J].&International&Journal&of&Cancer,&):&754-764
29.,&,&,&,&,&*,&*.&elevated&serum&alpha&fetoprotein&levels&&promote&pathological&progression&of&hepatocellular&carcinoma.&&):4563-71.
30.,&,&,&,&*.&The&acetylation&of&transcription&factor&HBP1&by&p300/CBP&enhances&p16INK4A&expression.&&):&981-995
生物物理学系
1.,&,&,&,&,&,&,&*,*.&Small&heat&shock&protein&AgsA&forms&dynamic&fibrils.&):.
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3.,&,&,&,&,*.&Protein&4.1R®ulates&cell&adhesion,&spreading,&migration&and&motility&of&mouse&keratinocytes&by&modulating&surface&expression&of&beta&1&integrin.&(Pt&14):2478-87.
1.Gu&T,&Zhang&Z,&Wang&J,&Guo&J,&Shen&WH,&Yin&Y&*.CREB&is&a&novel&nuclear&target&of&PTEN&phosphatase.&Cancer&Res.&):2821-5.&
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3.Zou&X,&Zhong&L,&Liu&D,&Yang&B,&Lou&Y,&Peng&J,&Rainer&M,&Feuerstein&I,&Muhammad&NU,&Huck&CW,&Bonn&GK*,&Yin&Y&*.&Novel&multifunctional&chitosan-GMA-IDA-Cu(II)&nanospheres&for&high&dynamicrange&characterization&of&the&human&plasma&proteome.&Anal&Bioanal&Chem.&):747-56.&
4.Niu&N,&Zhang&J,&Guo&Y,&Zhao&Y,&Korteweg&C,&Gu&J&*.&Expression&and&distribution&of&immunoglobulin&G&and&its&receptors&in&the&humannervous&system.Int&J&Biochem&Cell&Biol.):556-63.&
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6.Ling&Y,&Jiang&P,&Cui&SP,&Ren&YL,&Zhu&SN,&Yang&JP,&Du&J,&Zhang&Y,&Liu&JY,&Zhang&B&*.Clinical&implications&for&girdin&protein&expression&in&breast&cancer.&Cancer&Invest.&):405-10.&
7.Gong&M,&Yu&W,&Pei&F,&You&J,&Cui&X,&McNutt&MA,&Li&G*,&Zheng&J&*.&KLF6/Sp1&initiates&transcription&of&the&tmsg-1&gene&in&human&prostate&carcinoma&cells:&An&exon&involved&mechanism.&J&Cell&Biochem.):329-39.&
8.Du&J,&Du&Q,&Zhang&Y,&Sajdik&C,&Ruan&Y,&Tian&XX*,&Fang&WG&*.Expression&of&cell-cycle®ulatory&proteins&BUBR1,&MAD2,&Aurora&A,&cyclin&A&andcyclin&E&in&invasive&ductal&breast&carcinomas.&HistolHistopathol.&):761-8.
9.Ruan&Y,&Song&AP,&Wang&H,&Xie&YT,&Han&JY,&Sajdik&C,&Tian&XX*,&Fang&WG&*.&Genetic&polymorphisms&in&AURKA&and&BRCA1&are&associated&with&breast&cancersusceptibility&in&a&Chinese&Han&population.&J&Pathol.&):535-43.&
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病原生物学系
1.Xie&Q,&Chen&X,&Lu&F*,&Zhang&T,&Hao&M,&Wang&Y,&Zhao&J,&McCrae&MA,&Zhuang&H*.Aberrant&expression&ofµRNA&155&may&accelerate&cell&proliferation&by&targeting&sex-determining®ion&Y&box&6&in&hepatocellular&carcinoma.&Cancer.&&):&.
2.Wang&L,&Geng&J,&Li&J,&Li&T,&Matsumori&A,&Chang&Y,&Lu&F,&Zhuang&H*.&The&biomarker&N-terminal&pro-brain&natriuretic&peptide&and&liver&diseases.Clin&Invest&Med.&):E30-7.
3.Fu&H,&Wang&L,&Zhu&Y,&Geng&J,&Li&L,&Wang&X,&Bu&Q,&Zhuang&H*.&Analysing&complete&genome&sequence&of&swine&hepatitis&E&virus&(HEV),&strain&CHN-XJ-SW13&isolated&from&Xinjiang,&China:&putative&host&range,&and&disease&severity&determinants&in&HEV.&Infect&Genet&Evol.):618-23.&
4.Shi&S,&Lu&F,&Yan&L,&Zhuang&H*.Ntrafamilial&viral&transmission&is¬&the&main&cause&of&the&high&prevalence&of&hepatic&C&virus&infection&in&a&village,&Putian&county,&China.&J&ClinVirol.):110-4.&
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6.Shen&T,&Chen&X,&Zhang&W,&Xi&Y,&Cao&G,&Zhi&Y,&Wang&S,&Xu&C,&Wei&L,&Lu&F*,Zhuang&H*.&A&higher&correlation&of&HCV&core&antigen&with&CD4+&T&cell&counts&compared&with&HCV&RNA&in&HCV/HIV-1&coinfected&patients.&&LoS&One.&):e23550.&
7.Chen&X,&Zhang&L,&Chang&Y,&Shen&T,&Wang&L,&Zhuang&H*Lu&F*.&Association&of&TNF-alpha&genetic&polymorphisms&with&hepatocellular&carcinoma&susceptibility:&a&case-control&study&in&a&Han&Chinese&population.&Int&J&Biol&Markers.):181-187.&
8.Chen&J,&Liang&Z,&Lu&F*,Fang&X,&Liu&S,&Zeng&Y,&Zhu&F,&Chen&X,&Shen&T,&Li&J,&Zhuang&H*&.Toll-like&receptors&and&cytokines/cytokine&receptors&polymorphisms&associate&with&non-response&to&hepatitis&B&vaccine.&Vaccine.(4):706-11.&
9.Shen&T,&Zheng&J,&Liang&H*Xu&C,&Chen&X,&Zhang&T,&Xu&Q,&Lu&F*.Characteristics&and&PD-1&expression&of&peripheral&CD4+CD127loCD25hiFoxP3+&Treg&cells&in&chronic&HCV&infected-patients.Virol&J.&.
10.Geng&J,&Wang&L*&Wang&X,&Fu&H,&Bu&Q,&Liu&P,&Zhu&Y,&Wang&M,&Sui&Y,&Zhuang&H*.Potential&risk&of&zoonotic&transmission&from&young&swine&to&human:&seroepidemiological&and&genetic&characterization&of&hepatitis&E&virus&in&human&and&various&animals&in&Beijing,&China.&J&Viral&Hepat.):e583-90.&
11.Geng&J,&Wang&L*&Wang&X,&Fu&H,&Bu&Q,&Zhu&Y,&Zhuang&H*.Study&on&prevalence&and&genotype&of&hepatitis&E&virus&isolated&from&Rex&Rabbits&in&Beijing,&China.&J&Viral&Hepat.):661-7.&
12.Geng&J,&Fu&H,&Wang&L*&Bu&Q,&Liu&P,&Wang&M,&Sui&Y,&Wang&X,&Zhu&Y,&Zhuang&H*.&Phylogenetic&analysis&of&the&full&genome&of&rabbit&hepatitis&E&virus&(rbHEV)&and&molecular&biologic&study&on&the&possibility&of&cross&species&transmission&of&rbHEV.&Infect&Genet&Evol.&):2020-5.&
13.Teng&X,&Song&J,&Zhang&G,&Cai&Y,&Yuan&F,&Du&J,&Tang&C,&Qi&Y*.&Inhibition&of&endoplasmic&reticulum&stress&by&intermedin(1-53)&protects&against&myocardial&injury&through&a&PI3&kinase-Akt&signaling&pathway.&J&Mol&Med&(Berl).):.
14.Zhang&J,&Zhang&BH,&Yu&YR,&Tang&CS,&Qi&YF*.&Adrenomedullin&protects&against&fructose-induced&insulin&resistance&and&myocardial&hypertrophy&in&rats.&Peptides.):1415-21.
15.Chen&YH*&Wang&PP,&Wang&XM,&He&YJ,&Yao&WZ,&Qi&YF*&Tang&CS.&&Involvement&of&endogenous&hydrogen&sulfide&in&cigarette&smoke-induced&changes&in&airway&responsiveness&and&inflammation&of&rat&lung.Cytokine.):334-41.&
16.Wang&B,&Zhang&H,&Zhu&M,&Luo&Z,&Peng&Y*&&MEK1-ERKs&signal&cascade&is&required&for&the&replication&of&Enterovirus&71&(EV71).&Antiviral&Res.&2011&;3.[Epub&ahead&of&print]&
17.Guo&J,&Nair&MK,&Galván&EM,&Liu&SL*,&Schifferli&DM*.&&Tn5AraOut&mutagenesis&for&the&identification&of&Yersinia&pestis&genes&involved&in&resistance&towards&cationic&antimicrobial&peptides.&MicrobPathog.):121-32.&
18.Feng&Y,&Chen&Z,&Liu&SL*.&&Gene&decay&in&Shigella&as&an&incipient&stage&of&host-adaptation.&PLoS&One.&):e27754.&
19.Hao&M,&Chen&X*,&Zhang&T,&ShenT,&Xie&Q,&Xing&XJ,&Gu&HX,&Lu&FM.&&Impaired&nuclear&export&of&tumor-derived&c-terminal&truncated&cyclin&D1&mutant&in&ESCC&cancer.&&ONCOLOGY&LETTERS&):
20.Zou&QH*,&Li&RQ.&&Helicobacter&pylori&in&the&oral&cavity&and&gastric&mucosa:&a&meta-analysis.&&J&Oral&Pathol&Med.&):317-24.&
神经生物学系
1.Han&JS*.&Acupuncture&analgesia:&areas&of&consensus&and&controversy.&Pain.&):&S41-8.&
2.Zhang&R,&Feng&XJ,&Guan&Q,&Cui&W,&Zheng&Y,&Sun&W,&Han&JS*.&Increase&of&success&rate&for&women&undergoing&embryo&transfer&by&transcutaneous&electrical&acupoint&stimulation:&a&prospective&randomized&placebo-controlled&study.&FertilSteril.&):&912-6.
3.Lambert&C,&Berlin&I,&Lee&TL,&Hee&SW,&Tan&ASL,&Picard&D,&Han&JS*.&A&standardized&transcutaneous&electric&acupoint&stimulation&for&relieving&tobacco&urges&in&dependent&smokers.&Evid&Based&Complement&Alternat&Med.&2011.
4.Wang&J,&Li&D,&Li&XL,&Liu&FY,&Xing&GG,&Cai&J,&Wan&Y*.&Phase-amplitude&coupling&between&theta&and&gamma&oscillations&during&nociception&in&rat&electroencephalography.NeurosciLett.&):84-7.
5.Yi&M,&Zhang&HL,&Lao&LX,&Xing&GG,&Wan&Y*.&Anterior&cingulate&cortex&is&crucial&for&contra-&but¬&ipsi-lateral&electro-acupuncture&in&the&formalin-induced&inflammatory&pain&model&of&rats.Mol&Pain.&.
6.Liu&FY,&Qu&XX,&Cai&J,&Wang&FT,&Xing&GG*,&Wan&Y*.&Electrophysiological&properties&of&spinal&wide&dynamic&range&neurons&in&neuropathic&pain&rats&following&spinal&nerve&ligation.Neurosci&Bull.&):&1-8.
7.Liu&FY,&Liu&FY,&Sun&YN,&Wang&FT,&Li&Q,&Su&L,&Zhao&ZF,&Meng&XL,&Zhao&H,&Wu&X,&Sun&Q,&Xing&GG*,&Wan&Y*.&Activation&of&satellite&glial&cells&in&lumbar&dorsal&root&ganglia&contributes&to&neuropathic&pain&after&spinal&nerve&ligation.&Brain&Res.&:&65-77.
8.Xia&W,&Chu&NN,&Liang&J,&Li&YJ,&Zhang&R,&Han&JS,&Cui&CL*.Electroacupuncture&of&2&Hz&has&a&rewarding&effect:&evidence&from&a&conditioned&place&preference&study&in&rats.&Evid&Based&Complement&Alternat&Med.&&2012.
9.Wang&GB,&Wu&LZ,&Yu&P,&Li&YJ,&Ping&XJ,&Cui&CL*.&Multiple&100&Hz&electroacupuncture&treatments&produced&cumulative&effect&on&the&suppression&of&morphine&withdrawal&syndrome:¢ral&preprodynorphin&mRNA&and&p-CREB&implicated.&Peptides.&):&713-21.
10.Ma&YY,&Yu&P,&Guo&CY,&Cui&CL*.Effects&of&ifenprodil&on&morphine-induced&conditioned&place&preference&and&spatial&learning&and&memory&in&rats.Neurochem&Res.&):&383-91.&
11.Lv&XF,&Xu&Y,&Han&JS,&Cui&CL*.&Expression&of&activity-regulated&cytoskeleton-associated&protein&(Arc/Arg3.1)&in&the&nucleus&accumbens&is&critical&for&the&acquisition&expression&and&reinstatement&of&morphine-induced&conditioned&place&preference.&Behav&Brain&Res.&&(1):&182-91.
12.Zuo&YF,&Wang&XS,&Cui&CL*,&Luo&F,&Yu&P,&Wang&XW.&Cocaine-induced&impulsive&choices&are&accompanied&by&impairing&delay-dependent&anticipatory&activity&in&basolateral&amygdale.&J&Cogn&Neurosci.&):&196-211.
13.Ping&X,&Ma&Y,&Li&Y,&Qi&C,&Sun&X,&Lv&X,&Cui&CL*.&Essential&role&of&protein&kinase&c&in&morphine-induced&rewarding&memory.Neuropharmacology.&&):&959-966.
14.Li&CY,&Zhao&R,&Gao&K,&Wei&Z,&Yin&MY,&Lau<,&Chui&DH,&Yu&ACH*.&Astrocytes:&implications&for&neuroinflammatory&pathogenesis&of&Alzheimer's&disease.&Curr&Alzheimer&Res.&):&67-80.&&
15.Yang&CZ,&Li&HL,&Zhou&Y,&Chai&RC,&Zhao&R,&Dong&Y,&Xu&ZY,&Lau<,&Zhang&YG,&Teng&JL,&Chen&JG,&Yu&ACH*.&A&new&specialization&in&astrocytes:&glutamate-&and&ammonia-induced&nuclear&size&changes.&J&Neurosci&Res.&):&2041-51.
16.Zhang&F,&Liu&S,&Yang&F,&Zheng&J,&Wang&KW*.Identification&of&a&tetrameric&assembly&domain&in&the&c&terminus&of&heat-activated&trpv1&channels.J&Biol&Chem.&):&15308-16.
17.Bi&YP,&Chen&H,&Su&J,&Cao&X,&Bian&XL,&Wang&KW*.&Visceral&hyperalgesia&induced&by&forebrain-specific&suppression&of&native&Kv7/KCNQ/M-current&in&mice.&Mol&Pain..
18.Su&J,&Cao&X,&Wang&KW*.&A&novel°radation&signal&derived&from&distal&C-terminal&frame-shift&mutations&of&KCNQ2&which&cause&neonatal&epilepsy.&J&Biol&Chem.&):&42949-58.
19.Sun&M,&Zhou&T,&Zhou&L,&Chen&Q,&Yu&Y,&Yang&H,&Zhong&K,&Zhang&X,&Xu&F,&Cai&S,&Yu&A,&Zhang&H,&Xiao&R,&Xiao&D,&Chui&DL*.&Formononetin&protects&neurons&against&hypoxia-induced&cytotoxicity&through&upregulation&of&ADAM10&and&sAβPPα.&J&Alzheimers&Dis.&2011.
20.Wang&YY,&Qin&J,&Han&Y,&Cai&J,&Xing&GG*.&Hyperthermia&induces&epileptiform&discharges&in&cultured&rat&cortical&neurons.&Brain&Res.&:&87-102.
21.Li&HY,&Zhang&R,&Cui&CL,&Han&JS,&Wu&LZ*.Damage&of&splenic&T&lymphocyte&proliferation&and&differentiation&and&its&normalization&by&electroacupuncture&in&morphine-dependent&mice&mode.Evid&Based&Complement&Alternat&Med.&.
22.Li&YJ,&Zhong&F,&Yu&P,&Han&JS,&Cui&CL*,&Wu&LZ*.Electroacupuncture&treatment&normalized&sleep&disturbance&in&morphine&withdrawal&rats.&Evid&Based&Complement&Alternat&Med.&.&
23.Yi&M*,&Zhang&HL.&Nociceptive&memory&in&the&brain:&cortical&mechanisms&of&chronic&pain.&J&Neurosci.&):&13343-5.
1.Chen&J,&Liu&B,&Yuan&J,&Yang&J,&Zhang&J,&An&Y,&Tie&L,&Pan&Y,&Li&X*.&Atorvastatin&reduces&vascular&endothelial&growth&factor&(VEGF)&expression&in&human&non-small&cell&lung&carcinomas&(NSCLCs)&via&inhibition&of&reactive&oxygen&species&(ROS)&production.&MolOncol.&&):&62-72.
2.Pan&Y,&Lei&T,&Teng&B,&Liu&J,&Zhang&J,&An&Y,&Xiao&Y,&Han&J,&Pan&X,&Wang&J,&Yu&H,&Ren&H,&Li&X*.&Role&of&vimentin&in&the&inhibitory&effects&of&low-molecular-weight&heparin&on&PC-3M&cell&adhesion&to,&and&migration&through,&endothelium.J&PharmacolExpTher.&):82-92.&Epub&2011&Jul&6.
3.Ma&B,&Pan&Y,&Song&Q,&Tie&L,&Zhang&Y,&Xiao&Y,&Zhang&J,&Han&J,&Xu&Y,&Xiang&Y,&Yu&HM,&Li&XJ*.&The&effect&of&topiramate&on&tumor-related&angiogenesis&and&on&the&serum&proteome&of&mice&bearing&Lewis&lung&carcinoma.Eur&J&Pharmacol.&-3):9-16.
4.Cui&XY,&Cui&SY,&Zhang&J,&Wang&ZJ,&Yu&B,&Sheng&ZF,&Zhang&XQ,&Zhang&YH*.Extract&of&Ganodermalucidum&prolongs&sleep&time&in&rats.&J&Ethnopharmacol.&&):&796-800.
5.Cui&SY,&Cui&XY,&Zhang&J,&Wang&ZJ,&Yu&B,&Sheng&ZF,&Zhang&XQ,&Shi&XL,&Zhang&YH*.&Diltiazem&potentiates&pentobarbital-induced&hypnosis&via&5-HT1A&and&5-HT2A/2C&receptors:&role&for&dorsal&raphe&nucleus.&PharmacolBiochemBehav.&):566-72.&
6.Cui&SY,&Cui&XY,&Zhang&J,&Wang&ZJ,&Yu&B,&Sheng&ZF,&Zhang&XQ,&Shi&XL,&Zhang&YH*.&Ca2+&modulation&in&dorsal&raphe&plays&an&important&role&in&NREM&and&REM&sleep®ulation&during&pentobarbital&hypnosis.&Brain&Res.&-8.&
7.Li&X,&Ran&J,&Zhou&H,&Lei&T,&Zhou&L,&Han&J,&Yang&B*.&Mice&Lacking&Urea&Transporter&UT-B&Display&Depression-Like&Behavior.J&MolNeurosci.&2011.&[Epub&ahead&of&print]
8.Gao&J,&Zhou&H,&Lei&T,&Zhou&L,&Li&W,&Li&X,&Yang&B*.&Curcumin&inhibits&renal&cyst&formation&and&enlargement&in&vitro&by®ulating&intracellular&signaling&pathways.&Eur&J&Pharmacol.&):92-9.&
9.Liu&L,&Lei&T,&Bankir&L,&Zhao&D,&Gai&X,&Zhao&X,&Yang&B*.&Erythrocyte&permeability&to&urea&and&water:&comparative&study&in&rodents,&ruminants,&carnivores,&humans,&and&birds.&J&Comp&Physiol&B.&):65-72.&
10.Lei&T,&Zhou&L,&Layton&AT,&Zhou&H,&Zhao&X,&Bankir&L,&Yang&B*.&Role&of&thin&descending&limb&urea&transport&in&renal&urea&handling&and&the&urine&concentrating&mechanism.Am&J&Physiol&Renal&Physiol.&):F1251-9.&
11.Lin&G,&Zhao&L,&Yin&F,&Lan&R,&Li&L,&Zhang&X,&Zhang&H,&Yang&B*.&TCF3&inhibits&F9&embryonal&carcinoma&growth&by&the&down-regulation&of&Oct4.&Oncol&Rep.&):893-9.
12.Yin&SJ,&Ni&YB,&Wang&SM,&Wang&X,&Lou&YQ,&Zhang&GL*.&Differences&in&genotype&and&allele&frequency&distributions&of&polymorphic&drug&metabolizing&enzymes&CYP2C19&and&CYP2D6&in&mainland&Chinese&Mongolian,&Hui&and&Han&populations.J&Clin&Pharm&Ther.&&):&364-369.
13.Gu&Y,&Mao&Y,&Li&H,&Zhao&S,&Yang&Y,&Gao&H,&Yu&J,&Zhang&X,&Irwin&DM,&Niu&G,&Tan&H*.&Long-term&renal&changes&in&the&liver-specific&glucokinase&knockout&mouse:&implications&for&renal&disease&in&maturity-onset&diabetes&of&the&young&2.&Transl&Res.&):111-6.&
14.Sun&LX,&Chen&LH,&Lin&ZB,&Qin&Y,&Zhang&JQ,&Yang&J,&Ma&J,&Ye&T,&Li&WD*.&Effects&of&Ganodermalucidum&polysaccharides&on&IEC-6&cell&proliferation,&migration&and&morphology&of&differentiation&benefiting&intestinal&epithelium&healing&in&vitro.J&Pharm&Pharmacol.&):.&
15.Chen&LH,&Lin&ZB,&Li&WD*.Ganodermalucidum&polysaccharides&reduce&methotrexate-induced&small&intestinal&damage&in&mice&via&induction&of&epithelial&cell&proliferation&and&migration.&ActaPharmacol&Sin.&):1505-12.
16.Sun&LX,&Lin&ZB,&Duan&XS,&Lu&J,&Ge&ZH,&Li&XJ,&Li&M,&Xing&EH,&Jia&J,&Lan&TF,&Li&WD*.&Ganodermalucidum&polysaccharides&antagonize&the&suppression&on&lymphocytes&induced&by&culture&supernatants&of&B16F10&melanoma&cells.&J&Pharm&Pharmacol.&):725-35.&
17.Sun&LX,&Lin&ZB,&Li&XJ,&Li&M,&Lu&J,&Duan&XS,&Ge&ZH,&Song&YX,&Xing&EH,&Li&WD*.&Promoting&effects&of&Ganodermalucidum&polysaccharides&on&B16F10&cells&to&activate&lymphocytes.Basic&ClinPharmacolToxicol.&):149-54.&
18.Ou&Y,&Li&W*,&Li&X,&Lin&Z,&Li&M.&Sinomenine&reduces&invasion&and&migration&ability&in&fibroblast-like&synoviocytes&cells&co-cultured&with&activated&human&monocytic&THP-1&cells&by&inhibiting&the&expression&of&MMP-2,&MMP-9,&CD147.&Rheumatol&Int.&):1479-85..
1.Huang&Y,&Li&R,&Chen&X,&Zhuo&Y,&Jin&R,&Qian&XP,&Jiang&YQ,&Zeng&ZH,&Zhang&Y&*,&Shao&QX.&Doxycycline&up-regulates&the&expression&of&IL-6&and&GM-CSF&via&MAPK/ERK&and&NF-κB&pathways&in&mouse&thymic&epithelial&cells.&IntImmunopharmacol.&):1143-9.
2.Tian&L,&Li&W,&Wang&J,&Zhang&Y,&Zheng&Y,&Qi&H,&Guo&X,&Zhang&Y,&Ma&D,&Shen&H,&Wang&Y&*.&The&CKLF1-C19&peptide&attenuates&allergic&lung&inflammation&by&inhibiting&CCR3-&and&CCR4-mediated&chemotaxis&in&a&mouse&model&of&asthma.Allergy.&):287-97.&
3.Zhang&Y,Tian&L,&Zheng&Y,&Qi&H,&Guo&C,&Sun&Q,&Xu&E,&Zhang&Y,&Ma&D,&Wang&Y&*.C-terminal&peptides&of&chemokine-like&factor&1&signal&through&chemokine&receptor&CCR4&to&cross-desensitize&the&CXCR4.&BiochemBiophys&Res&Commun.&):356-61.
4.Zheng&Y,&Guo&C,&Zhang&Y,&Qi&H,&Sun&Q,&Xu&E,&Zhang&Y,&Ma&D,&Wang&Y&*.&Alleviation&of&murine&allergic&rhinitis&by&C19,&a&C-terminal&peptide&of&chemokine-like&factor&1&(CKLF1).IntImmunopharmacol.):2188-93.&
5.ZhangS,&QiH,&YakufuP,&ZhaoF,&LingX,&XiaoJ,&WangY&*.Screening&of&thiourea&derivatives&and&carbonyl-2-aminothiazole&derivatives&forpotential&CCR4&antagonists&using&capillary&zone&electrophoresis.J&Chromatogr&B&AnalytTechnol&Biomed&Life&Sci.):75-82.&
6.Teng&F,&Zhou&Y,&Jin&R,&Chen&Y,&Pei&X,&Liu&Y,&Dong&J,&Wang&W,&Pang&X,&Qian&X,&Chen&WF,&Zhang&Y,&Ge&Q&*.The&molecular&signature&underlying&the&thymic&migration&and&maturation&of&TCRαβ+&CD4+&CD8&thymocytes.&PLoS&One.&):e25567
7.Zhao&P,&Zhang&L,&Zhong&W,&Ying&X,&Huang&H,&Yao&B,&Yuan&Z,&Fu&J,Wang&Y*,Zhou&Z.&Antigen-subtracted&2-DE/MS&strategy,&a&novel&proteomic&analysis&platform.Arch&Toxicol.):35-41.&
8.Wen&W,&Zhang&L,&Peng&J,&Chen&J,&Hao&J,&Li&X,&Qian&X,&Zeng&P,&Zhang&Y,&Yin&Y&*,.Identification&of&promiscuous&HLA-DR-restricted&CD4?&T-cell&epitopes&on&thecancer-testis&antigen&HCA587.&Cancer&Sci.):1455-61.&
9.Li&Q,&Wang&L,&Tan&W,&Peng&Z,&Luo&Y,&Zhang&Y,&Zhang&G,&Na&D,&Jin&P,&Shi&T,&Ma&D,&Wang&L&*,.&Identification&of&C1qTNF-related&protein&4&as&a&potential&cytokine&that&stimulates&the&STAT3&and&NF-κB&pathways&and&promotes&cell&survival&in&human&cancer&cells.Cancer&Lett.&(2):203-14.&
10.Lv&D,&Zhao&W,&Dong&D,&Qian&XP,&Zhang&Y,&Tian&XJ,&Zhang&J&*,.&Genetic&and&epigenetic&control&of&UNC5C&expression&in&human&renal&cellcarcinoma.Eur&J&Cancer.&):2068-76.&
11.Peng&Z,&JiZ&,&Shi&T*,&Ma&D&.&RNF122&Induces&Cell&Apoptosis&Dependent&on&Its&RING&Domain.&ProgBiochemBiophys&&):816-820
12.Wang&P,&Sun&B,&Hao&D,&Zhang&X,&Shi&T*,&Ma&D.&Human&TMEM174&thatis&highly&expressed&in&kidney&tissue&activates&AP-1&andpromotes&cell&proliferation.&BiochemBiophys&Res&Commun.&):993-9.
细胞生物学系
1.,&,&,&,&,&,&,&,&,&*.Inducible&expression&of&stem&cell&associated&intermediate&filament&nestin&reveals&an&important&role&in&glioblastoma&carcinogenesis.&):343-51.&
2.,&,&,&,&,&,&,&,*.&Inhibition&of&mouse&embryonic&carcinoma&cell&growth&by&lidamycin&through&down-regulation&of&embryonic&stem&cell-like&genes&Oct4,&Sox2&and&Myc.&):1188-97.
3.,&,&,&,&,&,&,&,&,*.&Long-term&cultured&human&neural&stem&cells&undergo&spontaneous&transformation&to&tumor-Initiating&cells.&):892-901.
4.,&,&,&,&,&,&,&,&*.&A&small&ribosomal&subunit&(SSU)&processomecomponent,&the&human&U3&protein&14A&(hUTP14A)&binds&p53&and&promotes&p53°radation.&):3119-28.
5.,&,&,&,&,&,&*.&hALP,&a&novel&t-UTP,&activates&polymerase&I&transcription&by&binding&and&acetylating&the&upstream&binding&factor.&):7139-48.
6.,&,&,&,&*.AIB1&as&an&Independent&prognostic&marker&in&hepatocellular&carcinoma&after&hepatic&resection.&2011&Nov&4.
7.,&,&,&,&,*.Enhancement&of&the&immunogenicity&of&synthetic&carbohydrate&vaccines&by&chemical&modifications&of&STnantigen.&):252-9.
8.,&,&,&,&,&,&*.&Combined&lysosomal&protein&transmembrane&4&beta-35&and&argininosuccinatesynthetase&expression&predicts&clinical&outcome&in&hepatocellular&carcinoma&patients.&):810-7.
9.,&,&,&,&,&,&,&,&,&,&*.&Upregulation&of&LAPTM4B-35&promotes&malignant&transformation&and&tumorigenesis&in&L02&umanliver&cell&line.&):1135-42.
10.M.&Lin,&H.Yang,&R.Qi,&K.Yan,&X.Wang,&G.shao,&R.Zhou.ASS&is&down-regulated&by&promoter&CpG&methylation&in&hepatocellular&carcinoma.Hepatology&international.):&430-431
11.,&,&,&,&,&,&,&*.&LAPTM4B&overexpression&is&a&novel&predictor&of&epithelial&ovarian&carcinoma&metastasis.):629-35.
12.,&,&,&,&*.Reprogramming&of&sheep&fibroblasts&into&pluripotency&under&a&drug-inducible&expression&of&mouse-derived&defined&factors.&):e15947.
13.,&,&,&,&,&,&,&*.&Pax6®ulates&the&epidermal&growth&factor-responsive&neural&stem&cells&of&the&subventricular&zone.&&):448-52.
人体解剖学与组织胚胎学系
1.Khan&AA,&Janke&A,&Shimokawa&T,&Zhang&H*.&Phylogenetic&analysis&of&kindlins&suggests&subfunctionalization&of&an&ancestral&unduplicated&kindlin&into&three¶logs&in&vertebrates.&EvolBioinform&Online.-19
2.Khan&AA,&Shimokawa&T,&Str?mblad&S,&Zhang&H*.&&Functional&characterization&of&human&Kindlin-2&core&promoter&identifies&a&key&role&of&SP1&in&Kindlin-2&transcriptional®ulation.&Cell&MolBiolLett.):638-51.&
3.Hu&Q,&Ma&Q,&Zhan&Y,&He&Z,&Tang&J,&Zhou&C,&Zhang&J*.&Isoflurane&enhanced&hemorrhagic&transformation&by&impairing&antioxidant&enzymes&in&hyperglycemic&rats&with&middle&cerebral&artery&occlusion.):1750-6
4.Hu&Q,&Chen&C,&Khatibi&NH,&Li&L,&Yang&L,&Wang&K,&Han&J,&Duan&W,&Zhang&JH,&Zhou&C.*Lentivirus-mediated&transfer&of&MMP-9&shRNA&provides&neuroprotection&following&focal&ischemic&brain&injury&in&rats.&Brain&Res.&:347-59.
5.Lau&BW,&Ren&C,&Yang&J,&Yan&SW,&Chang&RC,&Pu&M*,So&KF*.Light&deprivation&induces&depression-like&behavior&and&suppresses&neurogenesis&in&diurnal&mongolian&gerbil&(Merionesunguiculatus).Cell&Transplant.&):871-81.
6.Luan&L,Ren&C,&Lau&BW,&Yang&J,&Pickard&GE,&So&KF*,Pu&M*.&Y-like&retinal&ganglion&cells&innervate&the&dorsal&raphe&nucleus&in&the&Mongolian&gerbil&(Merionesunguiculatus).&PLoS&One.):e18938.
7.Zhang&L,&Lu&DY,&Ma&WY,&Li&Y*.&Age-related&changes&in&the&localization&of&DNA&methyltransferases&during&meiotic&maturation&in&mouse&oocytes.&FertilSteril.&):1531-4
8.Ma&X,&Zhang&H,&Wang&K,&Yang&L,&Qin&L*,&Bai&W*,&Guan&Y,&Jia&J,&Kang&J,&Zhou&C.&Effects&of&an&isopropanolic-aqueous&black&cohosh&extract&on¢ral&body&temperature&of&ovariectomized&rats.&Ethnopharmacol.&2011&Oct&31;138(1):156-61.
9.Yan&J*,&Li&L,&Khatibi&NH,&Yang&L,&Wang&K,&Zhang&W,&Martin&RD,&Han&J,&Zhang&J,&Zhou&C*.&Blood-brain&barrier&disruption&following&subarchnoid&hemorrhage&may&be&faciliated&through&PUMA&induction&of&endothelial&cell&apoptosis&from&the&endoplasmic&reticulum.Exp&Neurol.):240-7.&
1.*,&,&,&,&.&Role&of&peroxisome&proliferator-activated&receptor-gamma&in&atherosclerosis&-&an&Update.CircJ&.&):&528-535
2.Wang&Y,&Zhao&B,&Zhang&Y,&Tang&Z,&Shen&Q,&Zhang&Y,&Zhang&W,&Du&J,&Chien&S,&Wang&N*:&Krüppel-like&factor&4&is&induced&by&rapamycin&and&mediates&the&anti-proliferative&effect&of&rapamycin&in&balloon-injured&rat&carotid&arteries.Br&J&Pharmacol.2011.
3.,&,&,&,&,&,&,&,&,&*,&.&Seipin&ablation&in&mice&results&in&severe&generalized&lipodystrophy.&.&):&
4.,&,&,&,&,&*,&.&Hypertriglyceridemia&and&delayed&clearance&of&fat&load&in&transgenic&rabbits&expressing&human&apolipoprotein&CIII..&):&867-875
5.Ding&Y,&Zhang&L,&Wang&Y,&Huang&W,&Tang&Y,&Bai&L,&Ross&CJR,&Hayden&MR,&Liu&G*:Ameliorationofhypertriglyceridemia&with&hypo-alpha-cholesterolemia&in&LPL&deficient&mice&by&hematopoietic&cell-derived&LPL.&PLos&One,&):e25620.
6.Wei&J,&Ouyang&H,&Wang&Y,&Pang&D,&Cong&XN,&Wang&T,&Leng&B,&Li&D,&Li&X,&Wu&R,&Gao&F,&Deng&Y,&Liu&B,&Li&Z,&Lai&L,&Feng&H,&Liu&G*,&Deng&X.&Characterization&of&A&hypertriglyceridemictransgenic&miniature&swine&model&expressing&human&apolipoprotein&CIII.&FEBS&J.&2011.&Epub&ahead&of&print
7.,&,&,&,&,&,&,&,&,&*.&Humanapolipoprotein&A-I&induces&cyclooxygenase-2&expression&and&prostaglandin&I-2&release&in&endothelial&cells&through&ATP-binding&cassette&transporter&A1..&):&C739-C748.
8.Liu&D,&Ji&L,&Zhang&D,&Tong&X,&Pan&B,&Liu&P,&Zhang&Y,&Huang&Y,&Su&J,&Willard&B,&and&Zheng&L*.&Nonenzymaticglycation&of&HDL&impairs&its&anti-inflammatory&effects&in&innate&immunity.&.&2011.&
9.Pan&B,&Ren&H,&Ma&Y,&Liu&D,&Yu&B,&Ji&L,&Pan&L,&Li&J,&Yang&L,&Lv&X,&Shen&X,&Chen&B,&Zhang&Y,&Willard&B,&He&Y,Zheng&L*:&HDL&of&patients&with&Type&2&diabetes&mellitus&elevates&the&capability&of&promoting&migration&and&invasion&of&breast&cancer&cells.Int&J&Cancer.&2011.&
放射医学教研室
1.Liu&Z,&Shi&J,&Jia&B*,&Yu&Z,&Liu&Y,&Zhao&H,&Li&F,&Tian&J,&Chen&X,&Liu&S,&Wang&F&*,.Two&??Y-labeled&multimeric&RGD&peptides&RGD4&and&3PRGD2&for&integrin&targeted&radionuclide&therapy.&Mol&Pharm.&):591-9.
2.Liu&Z,&Jia&B,&Zhao&H,&Chen&X,&Wang&F&*,.&Specific&targeting&of&human&integrin&α(v)β&(3)&with&(111)In-labeled&Abegrin?&in&nude&mouse&models.&Mol&Imaging&Biol.):112-20.
3.Jia&B,&Liu&Z,&Zhu&Z,&Shi&J,&Jin&X,&Zhao&H,&Li&F,&Liu&S,&Wang&F&*,.&Blood&clearance&kinetics,&biodistribution,&and&radiation&dosimetry&of&a&kit-formulated&integrin&αvβ3-selective&radiotracer&99mTc-3PRGD&2&in&non-human&primates.Mol&Imaging&Biol.):730-6.
4.Ma&X,&Liu&Z,&Yang&X,&Gao&Q,&Zhu&S,&Qin&C,&Liu&K,&Zhang&B,&Han&D,&Wang&F*,&Tian&J&*,.Dual-modality&monitoring&of&tumor&response&to&cyclophosphamide&therapy&in&micewith&bioluminescence&imaging&and&small-animal&positron&emission&tomography.&Mol&Imaging.):278-83.
5.Wang&D,&Shi&J,&Tan&J,&Jin&X,&Li&Q,&Kang&H,&Liu&R,&Jia&B*,&Huang&Y.&Synthesis,&characterization,&and&in&vivo&biodistribution&of&125I-labeled&Dex-g-PMAGGCONHTyr.&Biomacromolecules.&):1851-9.&
6.Wang&D,Liu&R,&Che&N,&Li&Q,&Li,&Z,&Tian&Y,&Kang&H,&Jia,&B*;&Huang&Y&,.&Improving&the&blood&clearance&time&of&(125)I&labeled&Dex-g-PMAGGCONHTyr&by&copolymerization.&Polymer&Chemistry.&):&.
中西医结合学系
1.,&,&,&,&,&,&,&,&,&,&,&*.&Caffeic&acid&inhibits´&hyperhomocysteinemia-induced&leukocyte&rolling&and&adhesion&in&mouse&cerebral&venules.&2011&Dec&6.
2.,&,&,&,&,&,&,&,&,&,&*.&Effects&of&dihydroxylphenyl&lactic&acid&on&inflammatory&responses&in&spinal&cord&injury.0-8
3.,&,&,&,&*.A&rapid&and&simple&RP-HPLC&method&for&quantification&of&kirenol&in&rat&plasma&after&oral&administration&and&its&application&to&pharmacokinetic&study.Biomedical.Chromatography.&):542-6.
4.,&,&,&,&,&*.Kirenolupregulates&nuclear&Annexin-1&which&interacts&with&NF-kappa&B&to&attenuate&synovial&inflammation&of&collagen-induced&arthritis&in&rats.):774-82.
医学信息学系
1.,&,&,&,*.The&relationship&between&rational&drug&design&and&drug&side&effects.&2011&Sep&23.
2.,&,&,&,&*.miREnvironment&Database:&providing&a&bridge&forµRNAs,&environmental&factors,&and&phenotypes.&):3329-30.
3.Qiu&C,&Wang&J,&*.&miR2Gene:&Pattern&discovery&of&single&gene,&multiple&genes,&and&pathways&by&enrichment&analysis&of&theirµRNA®ulators.&BMC&Systems&Biology.&2011;&5(Suppl&2):S9&
4.,&,&,&,&*.SpliceDisease&database:&linking&RNA&splicing&and&disease.&&):D1055-9.
5.,&,&,&,&,&,&,&*.&Characterization&and&prediction&of&lysine&(K)-acetyl-transferase&(KAT)&specific&acetylation&sites.&&):&M111.&011080.
医学遗传学系
1.,&,&,&,*.&Two&novel&heterozygous&mutations&of&EVC2&cause&a&mild&phenotype&of&Ellis-van&Creveld&syndrome&in&a&Chinese&family.):2131-6.&
2.,&,&,&,&,&,&,&,&,&,&*.&A&Proteomic&Investigation&of&B&Lymphocytes&in&an&Autistic&Family:&A&Pilot&Study&of&Exposure&to&Natural&Rubber&Latex&(NRL)&May&Lead&to&Autism.&&):443-52.
3.Liu&X,&,&,&,&*.&Mutational&analysis&in&familial&and&sporadic&patients&with&white&sponge&naevus.):448-51.
4.,&,&,&,&,&,&,&*.&Correlation&between&the&phenotypes&and&genotypes&of&X-linked&hypohidrotic&ectodermal&dysplasia&and&non-syndromichypodontia&caused&by&ectodysplasin-A&mutations.):e377-82.
8、2011年中文核心期刊论文目录
1.李贤慧,贾竹青,崔庆华,马康涛,周春燕*.稳定转染MiR-499对P19CL6细胞向心肌细胞分化的影响.&中国生物化学与分子生物学报):&316-322.
2.李涛,胡晓青,姜科声,周春燕*.&重组GATA4腺病毒的构建及心肌细胞感染.&浙江师范大学学报(自然科学版).&2011(5);&34&(2):&191-196.
3.张怀岺,金新安,高嵩*.&磁共振扩散张量成像扩散椭球面积的简化计算方法.&中国医学物理学杂志.&28(3):&.&
4.Zhang&HL,&Wang&X,&Gao&S*.&A&novel&implement&scheme&of&diffusion&sensitive&gradient&magnetic&field&for&magnetic&resonance&diffusion&weighted&spectroscopy.&Space&Medicine&&&Medical&Engineering,&24(3):&215-217.
5.张化宇,唐寅,常青,刘璐,王宇辉,蒋孟茜,韩迎春,祁荣,刘国庆*.小鼠对雨蛙肽诱发急性胰腺炎易感性的品系差异.&中国病理生理杂志.&):&.&
6.郑琴,方东,刘敏,姜红,蔡捷,万有,邢国刚*.骨癌痛大鼠初级感觉神经元兴奋性的研究.&中国疼痛医学杂志.&):&166-170.
7.段泽君,张永红,时云飞,周春菊,徐教生,薛学敏,李敏,黄欣,张志丽,高子芬*.系统性间变性大细胞淋巴瘤骨髓累及的临床病理学研究.&白血病·淋巴瘤.&):140-143.
8.齐雪岭,李敏,高子芬*.&组织细胞肉瘤六例临床病理学及免疫组织化学特点分析.&白血病·淋巴瘤.&):172-174.&
9.黄欣,高子芬*.&中国人经典霍奇金淋巴瘤中人类白细胞共同抗原表达的研究.&白血病·淋巴瘤.&):454-463.
10.徐教生,李敏,黄欣,张永红,周春菊,薛学敏,段泽君,孙琳,刘翠苓,高子芬*.&36例皮肤天然杀伤细胞/T细胞淋巴瘤临床病理学研究.&中华皮肤科杂志.&)&611-614.
11.何耀鑫,黄欣,周春菊,孙琳,李敏,薛学敏,段泽君,周莉,高子芬*.&EB病毒编码的小RNA检测在噬血细胞综合征骨髓活检中的意义.&白血病·淋巴瘤.&):532-534.
12.梅放,柳剑英*,张燕,王长秋,鲁安怀,赵文雯,熊翠娥,张波.&乳腺病变伴发生物矿化的类型及机制研究.&矿物学报.&):704-712.
13.蒲晓宇,张思宇,卫兰*,张京,徐彩红.&己烯雌酚对催乳激素在小鼠淋巴结内表达的影响.&解剖学报.):54-60.
14.邵翠萍,陈睿,吕丹瑜,李英*,马万云.&高血糖对小鼠卵母细胞Ca2+震荡和卵泡颗粒细胞肿瘤坏死因子相关凋亡诱导配体表达的影响.&解剖学报.&&):618-621&&&
15.刘玉霞,董静霞,金玉洁,申春艳,徐健*.&人卵巢颗粒细胞的体外培养方法探讨.&中国组织化学与细胞化学杂志.&&):436-439&
16.金玉洁,董静霞,刘玉霞,申春艳,徐健*.Smad3基因促进大鼠卵巢颗粒细胞增殖.&解剖学报.&&):766-&769.
17.王建伟,刘胜勇,雷秀兵,王振宇,成家茂,陈峰,岳兵,王珂,田珑,张卫光*.甲醛熏染模型大鼠肝脏组织增殖细胞核抗原表达与三七复方合剂的干预.&中国组织工程研究与临床康复.&-4。.
18.易婷,张浩,彭宜红*,朱萌,何晓燕,黄孝天.&MEK1-ERKs级联激活方式是调控单纯疱疹病毒Ⅱ型复制的重要机制.中国生物化学与分子生物学报.&):142-147.&
19.王美容,刘学恩,庄辉*.&HBV&cccDNA检测临床应用研究进展.&中国病毒病杂志.&&):395-400.
20.王晓娟,&王玲*,&庄辉*.&戊型肝炎研究最新进展.&中华流行病学杂志.&&):629-631.
21.卜秋宁,王玲*,庄辉*.&戊型肝炎的慢性化趋势及其致病机制.&中国病毒病杂志.&&):10-14.&
22.刘鹏,王玲*,庄辉*.&乙型肝炎病毒与戊型肝炎病毒重叠感染研究进展.&中国病毒病杂志.&):5-9.
23.邹清华,&张浩,&彭宜红*.&当前形势下《医学微生物学》课程教学内容的与时俱进.中华医学科研管理杂志.&):p118-119.
24.何晓燕,&邓娟,&屠静,&鲁凤民,&李彤*:医学微生物学教学中文献综述的应用.中华医学教育杂志.&-59.
25.董林,葛瑞民,祁楠,沈丽*.&shRNA腺病毒介导的JNK1&RNAi抑制U87MG人胶质瘤细胞的增殖.肿瘤防治研究.):767-769.&
26.张小燕,刘胜勇,何其华,陆爱丽,王珂,张卫光,沈丽*.&人胚胎脑室脉络丛上皮细胞表达神经干细胞分子标志.&解剖学报.)2&201-205.
27.张小燕,王亚军,沈丽*.&碱性成纤维细胞生长因子和环磷酸腺苷对神经前提细胞内源性端粒酶反转录酶基因转录水平的调控.解剖学报.&)4&479-484.
28.宋晓莉,王喆明,吴再旺,钱瑞琴*.&奇壬醇对不同大鼠关节炎症模型作用的对比.&中国新药杂志.&)27-261&
29.卢月,曹雅晶,钱瑞琴*.&IL-17在类风湿关节炎发病机制中的作用.&中国免疫学杂志.&):855-859&
30.邓暄,赵红珊*,彭智,邓唯唯,李娜,郭帅,石太平.&C17orf62诱导细胞死亡的作用及其机制.&北京大学学报(医学版).&):&168-172.&
31.苏静,杨郁,马晓龙,由江峰,杜娟,柳剑英,郑杰*.&荧光原位杂交检测乳腺癌人表皮生长因子受体2基因扩增及与临床病理特征的关系.&北京大学学报(医学版)):199-203.
32.杜娟,柳剑英*,苏静.&两种组织脱钙法对免疫组织化学染色影响比较.&北京大学学报(医学版)&):290-294.
33.徐晓艳,由江峰,裴斐*,张波.RNA沉默LASS2基因促进人前列腺癌细胞体外侵袭及其机制研究.北京大学学报(医学版)):814-819.
34.张燕,陈剑,刘海静,陆敏*.&石蜡切片免疫荧光法在肾病穿刺组织中的应用.&北京大学学报(医学版).&):900-902.&}
to customize your list.
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Whether you're a beginner or an experienced developer, you can contribute.
In C, what is the difference between using ++i and i++, and which should be used in the incrementation block of a for loop?
10.6k84465
10.8k3595147
++i will increment the value of i, and then return the incremented value.
(i is 2, j is 2)
i++ will increment the value of i, but return the original value that i held before being incremented.
(i is 2, j is 1)
For a for loop, either works. ++i seems more common, perhaps because that is what is used in .
In any case, follow the guideline "prefer ++i over i++" and you won't go wrong.
There's a couple of comments regarding the efficiency of ++i and i++. In any non-student-project compiler, there will be no performance difference.
You can verify this by looking at the generated code, which will be identical.
The efficiency question is interesting... here's my attempt at an answer:
As On Freund notes, it's different for a C++ object, since operator++() is a function and the compiler can't know to optimize away the creation of a temporary object to hold the intermediate value.
123k87221331
i++ is known as Post Increment whereas ++i is called Pre Increment.
i++ is post increment because it increments i's value by 1 after the operation is over.
Lets see the following example:
int i = 1,
Here value of j = 1 but i = 2. Here value of i will be assigned to j first then i will be incremented.
++i is pre increment because it increments i's value by 1 before the operation.
It means j = will execute after i++.
Lets see the following example:
int i = 1,
Here value of j = 2 but i = 2. Here value of i will be assigned to j after the i
incremention of i.
Similarly ++i will be executed before j=i;.
For your question
which should be used in the incrementation block of a for loop? the answer is, you can use any one.. no matter. It will execute your for loop same no. of times.
for(i=0; i&5; i++)
printf("%d ",i);
for(i=0; i&5; ++i)
printf("%d ",i);
Both the loops will produce same output. ie 0 1 2 3 4.
It only matters where you are using it.
for(i = 0; i&5;)
printf("%d ",++i);
In this case output will be 1 2 3 4 5.
2,59742852
3,10861428
Please don't worry about the "efficiency" (speed, really) of which one is faster.
We have compilers these days that take care of these things.
Use whichever one makes sense to use, based on which more clearly shows your intent.
49.2k1164121
++i increments the value, then returns it.
i++ returns the value, and then increments it.
It's a subtle difference.
For a for loop, use ++i, as it's slightly faster. i++ will create an extra copy that just gets thrown away.
10.6k84465
6,47912443
The reason ++i can be slightly faster than i++ is that i++ can require a local copy of the value of i before it gets incremented, while ++i never does. In some cases, some compilers will optimize it away if possible... but it's not always possible, and not all compilers do this.
I try not to rely too much on compilers optimizations, so I'd follow Ryan Fox's advice: when I can use both, I use ++i.
10.6k84465
3,85842331
i++ :- In this scenario first the value is assigned and then increment happens.
++i :- In this scenario first the increment is done and then value is assigned
Below is the image visualization and also here is a nice practical video ( ) which demonstrates the same.
6,64613730
The effective result of using either is identical.
In other words, the loop will do the same exact thing in both instances.
In terms of efficiency, there could be a penalty involved with choosing i++ over ++i.
In terms of the language spec, using the post-increment operator should create an extra copy of the value on which the operator is acting.
This could be a source of extra operations.
However, you should consider two main problems with the preceding logic.
Modern compilers are great.
All good compilers are smart enough to realize that it is seeing an integer increment in a for-loop, and it will optimize both methods to the same efficient code.
If using post-increment over pre-increment actually causes your program to have a slower running time, then you are using a terrible compiler.
In terms of operational time-complexity, the two methods (even if a copy is actually being performed) are equivalent.
The number of instructions being performed inside of the loop should dominate the number of operations in the increment operation significantly.
Therefore, in any loop of significant size, the penalty of the increment method will be massively overshadowed by the execution of the loop body.
In other words, you are much better off worrying about optimizing the code in the loop rather than the increment.
In my opinion, the whole issue simply boils down to a style preference.
If you think pre-increment is more readable, then use it.
Personally, I prefer the post-incrment, but that is probably because it was what I was taught before I knew anything about optimization.
This is a quintessential example of premature optimization, and issues like this have the potential to distract us from serious issues in design.
It is still a good question to ask, however, because there is no uniformity in usage or consensus in "best practice."
1,40011429
I assume you understand the difference in semantics now (though honestly I wonder why
people ask 'what does operator X mean' questions on stack overflow rather than reading,
you know, a book or web tutorial or something.
But anyway, as far as which one to use, ignore questions of performance, which are
unlikely important even in C++.
This is the principle you should use when deciding
which to use:
Say what you mean in code.
If you don't need the value-before-increment in your statement, don't use that form of the operator.
It's a minor issue, but unless you are working with a style guide that bans one
version in favor of the other altogether (aka a bone-headed style guide), you should use
the form that most exactly expresses what you are trying to do.
QED, use the pre-increment version:
for (int i = 0; i != X; ++i) ...
++i is pre-increment the other is post-increment
i++: gets the element and then increments it.
++i: increments i and then returns the element
int i = 0;
printf("i: %d\n", i);
printf("i++: %d\n", i++);
printf("++i: %d\n", ++i);
426k60489801
++i and i++ works same if you are not writing them in a function.
If you use something like function(i++) or function(++i) you can see the difference.
function(++i) says first increment i by 1, after that put this i into the function with new value.
function(i++) says put first i into the function after that increment i by 1.
printf("%d\n",pow(++i,2));//it prints 25 and i is 5 now
printf("%d",pow(i++,2));//it prints 16 i is 5 now
10.9k1692168
++i (Prefix operation): Increments and then assigns the value
(eg) : int i = 5 , int b = ++i
In this case, 6 is assigned to b first and then increments to 7 and so on.
i++ (Postfix operation): Assigns and then increments the value
(eg) : int i = 5 , int b = i++
In this case, 5 is assigned to b first and then increments to 6 and so on.
Incase of for loop : i++ is mostly used because, normally we use the starting value of i before incrementing in for loop.But depending on your program logic it may vary.
The Main Difference is
i++ Post(After Increment) and
(Before Increment)
post if i =1
the loop increments like 1,2,3,4,n
the loop increments like 2,3,4,5,n
a=i++ means i value will be stored in a without incrementing
a=++i means i value will be stored with incrementing...
Here is the example to understand the difference
printf("%d %d",i++,++i);
output:10 12/11 11(based on evaluation of parameters in printf statement which vary from compiler to compiler)
Explaination:
i++->'i' is printed and then increments.(Prints 10 but 'i' will becomes 11)
++i->'i' value increments and prints the value.(Prints 12 & value of 'i' also 12)
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2011年SCI论文目录
生理学与病理生理学系
1.,&,&,&,&,&,&,&,&*.&A&Novel&Mechanism&of&gamma/delta&T-Lymphocyte&and&Endothelial&Activation&by&Shear&Stress&The&Role&of&Ecto-ATP&Synthase&beta&Chain.&.&&):&410-417&&
2.,&,&,&,&,&*:&Activation&of&peroxisome&proliferator-activated&receptor-gamma&downregulates&soluble&epoxide&hydrolase&in&cardiomyocytes..&2011;&&38(6)&:&358-364
3.,&,&,&,&,&,&,&*.&Prostaglandin&E2&promotes&endothelial&differentiation&from&bone&marrow-derived&cells&through&K&activation.&):e23554.&
3.,&,&,&,&,&,&,&,&,&,*.&K&potentiates&hypertonicity-induced&apoptosis&by&suppressing&NF&kappa&B/COX-2&in&medullary&interstitial&cells..&):&
4.Zhu&S,&Xue&R,&Zhao&P,&Fan&FL,&Kong&X,&Zheng&S,&Han&Q,&Zhu&Y,&Wang&N,&Yang&J*,&Guan&Y*.&Targeted&disruption&of&the&prostaglandin&E2&EP2&receptor&exacerbates&vascular&neointima&formation&in&mice.&ArteriosclerThrombVasc&Biol.&):1739-47&
5.Li&J,&Chi&Y,&Wang&C,&Wu&J,&Yang&H,&Zhang&D,&Zhu&Y,&Wang&N,Yang&J*,&Guan&Y*.&Pancreatic-derived&factor&promotes&lipogenesis&in&the&liver:&Role&of&FOXO1&signaling&pathway.Hepatology.&):1906-16&
6.Zhou&Y,&Kong&X,&Zhao&P,&Yang&H,&Chen&L,&Miao&J,&Zhang&X,&Yang&J,&Ding&J,&Guan&Y*.&Renoprotective&Role&of&Peroxisome&Proliferator-activated&Receptor-Alpha&in&Adriamycin-induced&Podocyte&Injury.Kidney&Int.02–1311&
7.Zhang&D,&Kong&X,&Wang&K,&Mao&X,&Yan&X,&Wang&Y,&Liu&S,&Zhang&X,&Li&J,&Chen&L,&Wu&J,&Wei&M,&Yang&J,&and&Guan&Y*.&Proteomics&analysis&reveals&diabetic&kidney&as&a&ketogenic&organ&in&type&2&diabetes.&.6-E303
8.Yang&J,&Zhou&Y,&Guan&Y*..&PPARγ&as&a&therapeutic&target&in&diabetic&nephropathy&and&other&renal&diseases[J].&Current&opinion&in&nephrology&and&hypertension,&):&97-105.
9.,,&*,&,&,&,&,&,&.&Effect&of&PGE2&on&DA&tone&by&EP4&modulating&Kv&channels&with&different&oxygen&tension&between&preterm&and&term..&&)&:&58-65&
8.,&,&,&,&,&,&,&*.Mitochondrial&reactive&oxygen&species&promote&p65&nuclear&translocation&mediating&high-phosphate-induced&vascular&calcification&in&vitro&and&in&vivo..&&):&&&
9.,&,&,&,&*.&High&glucose&stimulates&TNF&alpha&and&MCP-1&expression&in&ratµglia&via&ROS&and&NF-kappa&B&pathways..&)&:&188-193&
10.,&,&,&,&,&,&,&,&*,&.&Proteomic&Analysis&of&Human&Transplanted&Submandibular&Gland&in&Patients&with&Epiphora&after&Transplantation..&):&&&
11.,&,&,&,&,&,&,&:&Angiotensin&II&increases&periostin&expression&via&Ras/p38&MAPK/CREB&and&ERK1/2/TGF-beta&1&pathways&in&cardiac&fibroblasts.Cardiovasc&Res.&&2011;&&&91(1):&80-89&
12.Cui&XB,&Wang&C,&Li&L,&Fan&D,&Zhou&Y,&Wu&D,&Cui&QH,&Fu&FY,&Wu&LL*.&Insulin&decreases&myocardial&adiponectin&receptor&1&expression&via&PI3K/Akt&and&FoxO1&pathway[J].&Cardiovascular&research,&):&69-78.
13.,,&,&,&,&.&Adiponectin&Induces&Interleukin-6&Production&and&its&Underlying&Mechanism&in&Adult&Rat&Cardiac&Fibroblasts..&):&&&
14.,&,&,&,&,&,&,&*,&.&Expression&of&ghrelin&in&human&salivary&glands&and&its&levels&in&saliva&and&serum&in&Chinese&obese&children&and&adolescents..&2011;&&56(4):&389-394&
15.Ding&QW,&Zhang&Y,&Cong&X,&Cai&ZG,&Han&JY,&Su&YC,&Wu&LL*,&Yu&GY*.&Confocalµscopy&with&double&immunofluorescence&staining&reveals&the&functional&transient&receptor&potential&vanilloid&subtype&1&expressed&in&myoepithelial&cells&of&human&submandibular&glands.&Microsc&Res&Tech.&2011&
16.,&,&,&,&,&,&,&,&*.&Role&of&sulfhydryl-dependent&dimerization&of&soluble&guanylylcyclase&in&relaxation&of&porcine&coronary&artery&to&nitric&oxide.Cardiovasc&Res.&):&565-572&&
17.,&,&,,.&mTOR&and&the&differentiation&of&mesenchymal&stem&cells..&):&501-510&
18..&Influence&of&fasting,&insulin&and&glucose&on&ghrelin&in&the&dorsal&vagal&complex&in&rats..&):&257-262
19.,&,&,&,&,&,&,&,&,&,&,&,&,&.&Cartilage&Oligomeric&Matrix&Protein&Inhibits&Vascular&Smooth&Muscle&Calcification&by&Interacting&With&Bone&Morphogenetic&Protein-2..&):&917-U79
20.Kong&W*:&Matrix&Metalloproteinase-9&vs.&Troponin&T.&Circ&J.&(12):2757-8.&
21.Zhang&Y,&Chen&X,&Xu&X,&Wang&X,&Wang&X,&Yuan&G,&Sun&D,&Ka&W,&He&D,&Wen&Z*,&Yao&W*.&Knockdown&of&hTERT&alters&biophysical&properties&of&K562&cells&resulting&in&decreased&migration&rate&in&vitro.&Cell&Biochem.Biophys.&):595-603&
22.Chen&D,&Zhang&X,&Du&Y,&Jia&B,&Ka&W,&Sun&D,&Yao&W*,&Wen&Z*.Effects&of&Gekko&sulfated&polysaccharide–protein&complex&on&the&defective&biorheological&characters&of&dendritic&cells&under&tumorµenvironment[J].&Cell&biochemistry&and&biophysics,&):&193-201.
生物化学与分子生物学系
1.Huang&Y,&Wu&J,&Li&R,&Wang&P,&Han&L,&Zhang&Z,&Tong&T*.Cell&Mol&Life&Sci.&):893-901.
2.Cao&X,&Xue&L,&Han&L,&Ma&L,&Chen&T,&Tong&T*.J&Biol&Chem.&(38):33447-56.
3.Niu&J,&Chen&T,&Han&L,&Wang&P,&Li&N,&Tong&T*.&Transcriptional&activation&of&the&senescence®ulator&Lsh&by&E2F1.Mech&Ageing&Dev.&):180-6.
4.Li&N,&Li&Q,&Cao&X,&Zhao&G,&Xue&L,&Tong&T*.FEBS&Lett.):3106-12.
5.Li&R,&Ma&L,&Huang&Y,&Zhang&Z,&Tong&T*.Biogerontology.&):517-25.
6.Yang&X,&Yu&W,&Shi&L,&Sun&L,&Liang&J,&Yi&X,&Li&Q,&Zhang&Y,&Yang&F,&Han&X,&Zhang&D,&Yang&J,&Yao&Z,&Shang&Y*.Mol&Cell.):39-50.
7.Li&Y,&Sun&L,&Zhang&Y,&Wang&D,&Wang&F,&Liang&J,&Gui&B,&Shang&Y*.J&Biol&Chem.&):13925-36.
8.Shi&L,&Sun&L,&Li&Q,&Liang&J,&Yu&W,&Yi&X,&Yang&X,&Li&Y,&Han&X,&Zhang&Y,&Xuan&C,&Yao&Z,&Shang&Y*.ProcNatlAcad&Sci.&):7541-6.
9.Li&Q,&Shi&L,&Gui&B,&Yu&W,&Wang&J,&Zhang&D,&Han&X,&Yao&Z,&Shang&Y*.Cancer&Res.&):.
10.Yang&F,&Sun&L,&Li&Q,&Han&X,&Lei&L,&Zhang&H,&Shang&Y*&SET8&promotes&epithelial–mesenchymal&transition&and&confers&TWIST&dual&transcriptional&activities[J].&The&EMBO&journal,&):&110-123.
11.Zhang&Y,&Yang&X,&Gui&B,&Xie&G,&Zhang&D,&Shang&Y*,&Liang&J*.J&Biol&Chem.&):42414-25.
12.Liu&X,&Wang&D,&Zhao&Y,&Tu&B,&Zheng&Z,&Wang&L,&Wang&H,&Gu&W,&Roeder&RG,&Zhu&WG*.ProcNatlAcad&Sci.&):1925-30.
13.Wang&C,&Wang&Y,&McNutt&MA,&Zhu&WG*.ActaBiochimBiophys&Sin&(Shanghai).&):425-32.
14.Zhao&Y,&Wang&Y,&Zhu&WG*.J&Mol&Cell&Biol.&):276-82.
15.Yang&J,&Zhao&Y,&Ma&K,&Jiang&FJ,&Liao&W,&Zhang&P,&Zhou&J,&Tu&B,&Wang&L,&Kampinga&HH,&Xie&Z,&Zhu&WG*.&Autophagy.&):748-59.
16.Zheng&Z,&Li&L,&Liu&X,&Wang&D,&Tu&B,&Wang&L,&Wang&H,&Zhu&WG*.&FASEB&J.&):449-59.
17.Wang&H,&Zhou&W,&Zheng&Z,&Zhang&P,&Tu&B,&He&Q,&Zhu&WG*.[J]DNA&Repair&(Amst).&):&146-156.
18.,&,&,&,&,&,&,&*.&Characterization&and&prediction&of&lysine&(K)-acetyl-transferase&(KAT)&specific&acetylation&sites.&[J].&Molecular&&&Cellular&Proteomics,&):&M111.&011080.
19.,&,&,&,&,&,&,&*,&*.Targeted&delivery&of&non-viral&vectors&to&cartilage&in&vivo&using&a&chondrocyte-homing&peptide&identified&by&phage&display.&&):6324-32.&
20.Guo&X,&Zhou&C*,&Sun&N*.BiochemBiophys&Res&Commun.&):807-12.
21.Liu&Y,&Li&Y,&Li&T,&Lu&H,&Jia&Z,&Wang&W,&Chen&P,&Ma&K,&Zhou&C*.&Cell&Mol&Life&Sci.&):1969-82.
22.Yan&L,&Jia&Z,&Cui&J,&Yang&H,&Yang&H,&Zhang&Y*,&Zhou&C*.Dev&Growth&Differ.&):772-9.
23.Hu&X,&Li&T,&Zhang&C,&Liu&Y,&Xu&M,&Wang&W,&Jia&Z,&Ma&K,&Zhang&Y,&Zhou&C*.J&Cell&Mol&Med.&):1865-77.
24.Meng&Q,&Jia&Z,&Wang&W,&Li&B,&Ma&K,&Zhou&C*.BiochemBiophys&Res&Commun.&):253-9.
25.Li&B,&Jia&Z,&Wang&T,&Wang&W,&Zhang&C,&Chen&P,&Ma&K,&Zhou&C*.&[J].&Journal&of&cellular&biochemistry,&):&629-639.
26.Guo&T,&Wang&W,&Zhang&H,&Liu&Y,&Chen&P,&Ma&K,&Zhou&C*.PLoS&One.&):e22387.
27.,&,&,&,&,&,&,&,&,&*.&Alpha-fetoprotein:&a&new&member&of&intracellular&signal&molecules&in®ulation&of&the&PI3K/AKT&signaling&in&human&hepatoma&cell&lines.&&):524-32.
28.,&,&,&,&,&,&,&*.&Impact&of&cytoplasmic&alpha&fetoprotein&in&RAR-mediated&expression&of&GADD153.&[J].&International&Journal&of&Cancer,&):&754-764
29.,&,&,&,&,&*,&*.&elevated&serum&alpha&fetoprotein&levels&&promote&pathological&progression&of&hepatocellular&carcinoma.&&):4563-71.
30.,&,&,&,&*.&The&acetylation&of&transcription&factor&HBP1&by&p300/CBP&enhances&p16INK4A&expression.&&):&981-995
生物物理学系
1.,&,&,&,&,&,&,&*,*.&Small&heat&shock&protein&AgsA&forms&dynamic&fibrils.&):.
2.Han&RC,&YU&M,&*.Interaction&between&CdSeS&Quantum&Dots&and&Gold&Nanoparticles&in&Solution..):&255-261&
3.,&,&,&,&,*.&Protein&4.1R®ulates&cell&adhesion,&spreading,&migration&and&motility&of&mouse&keratinocytes&by&modulating&surface&expression&of&beta&1&integrin.&(Pt&14):2478-87.
1.Gu&T,&Zhang&Z,&Wang&J,&Guo&J,&Shen&WH,&Yin&Y&*.CREB&is&a&novel&nuclear&target&of&PTEN&phosphatase.&Cancer&Res.&):2821-5.&
2.Zou&X,&Liu&D,&Zhong&L,&Yang&B,&Lou&Y,&Hu&B,&Yin&Y&*.&Highly&specific&capture&and&direct&MALDI-MS&analysis&of&phosphorylated&peptidesusing&novel&multifunctional&chitosan-GMA-IDA-Fe&(III)&nanosphere.Anal&Bioanal&Chem.&):1251-61
3.Zou&X,&Zhong&L,&Liu&D,&Yang&B,&Lou&Y,&Peng&J,&Rainer&M,&Feuerstein&I,&Muhammad&NU,&Huck&CW,&Bonn&GK*,&Yin&Y&*.&Novel&multifunctional&chitosan-GMA-IDA-Cu(II)&nanospheres&for&high&dynamicrange&characterization&of&the&human&plasma&proteome.&Anal&Bioanal&Chem.&):747-56.&
4.Niu&N,&Zhang&J,&Guo&Y,&Zhao&Y,&Korteweg&C,&Gu&J&*.&Expression&and&distribution&of&immunoglobulin&G&and&its&receptors&in&the&humannervous&system.Int&J&Biochem&Cell&Biol.):556-63.&
5.Niu&N,&Zhang&J,&Sun&Y,&Wang&S,&Sun&Y,&Korteweg&C,&Gao&W,Gu&J&*.&Expression&and&distribution&of&immunoglobulin&G&and&its&receptors&in&an&immuneprivileged&site:&the&eye.Cell&Mol&Life&Sci.&):2481-92.
6.Ling&Y,&Jiang&P,&Cui&SP,&Ren&YL,&Zhu&SN,&Yang&JP,&Du&J,&Zhang&Y,&Liu&JY,&Zhang&B&*.Clinical&implications&for&girdin&protein&expression&in&breast&cancer.&Cancer&Invest.&):405-10.&
7.Gong&M,&Yu&W,&Pei&F,&You&J,&Cui&X,&McNutt&MA,&Li&G*,&Zheng&J&*.&KLF6/Sp1&initiates&transcription&of&the&tmsg-1&gene&in&human&prostate&carcinoma&cells:&An&exon&involved&mechanism.&J&Cell&Biochem.):329-39.&
8.Du&J,&Du&Q,&Zhang&Y,&Sajdik&C,&Ruan&Y,&Tian&XX*,&Fang&WG&*.Expression&of&cell-cycle®ulatory&proteins&BUBR1,&MAD2,&Aurora&A,&cyclin&A&andcyclin&E&in&invasive&ductal&breast&carcinomas.&HistolHistopathol.&):761-8.
9.Ruan&Y,&Song&AP,&Wang&H,&Xie&YT,&Han&JY,&Sajdik&C,&Tian&XX*,&Fang&WG&*.&Genetic&polymorphisms&in&AURKA&and&BRCA1&are&associated&with&breast&cancersusceptibility&in&a&Chinese&Han&population.&J&Pathol.&):535-43.&
10.Yang&S*,&Zhao&C,&Zhang&Y,&Liao&S&.Mediastinal&fetal&rhabdomyoma&in&nevoid&basal&cell&carcinoma&syndrome:&a&case&report&and&review&of&the&literature.&Virchows&Arch.):235-8.&
病原生物学系
1.Xie&Q,&Chen&X,&Lu&F*,&Zhang&T,&Hao&M,&Wang&Y,&Zhao&J,&McCrae&MA,&Zhuang&H*.Aberrant&expression&ofµRNA&155&may&accelerate&cell&proliferation&by&targeting&sex-determining®ion&Y&box&6&in&hepatocellular&carcinoma.&Cancer.&&):&.
2.Wang&L,&Geng&J,&Li&J,&Li&T,&Matsumori&A,&Chang&Y,&Lu&F,&Zhuang&H*.&The&biomarker&N-terminal&pro-brain&natriuretic&peptide&and&liver&diseases.Clin&Invest&Med.&):E30-7.
3.Fu&H,&Wang&L,&Zhu&Y,&Geng&J,&Li&L,&Wang&X,&Bu&Q,&Zhuang&H*.&Analysing&complete&genome&sequence&of&swine&hepatitis&E&virus&(HEV),&strain&CHN-XJ-SW13&isolated&from&Xinjiang,&China:&putative&host&range,&and&disease&severity&determinants&in&HEV.&Infect&Genet&Evol.):618-23.&
4.Shi&S,&Lu&F,&Yan&L,&Zhuang&H*.Ntrafamilial&viral&transmission&is¬&the&main&cause&of&the&high&prevalence&of&hepatic&C&virus&infection&in&a&village,&Putian&county,&China.&J&ClinVirol.):110-4.&
5.Liu&J,&Chen&X,&Xie&Q,&Zhang&W,&Wei&L,&Shen&T,&Xu&Q,&Zhuang&H*,&Gao&F*&Lu&F.&Drug&resistance&and&HCV&coinfection&in&former&blood&donors&infected&with&HIV&type&1&in&China.&AIDS&Res&Hum&Retroviruses.&):925-30.&
6.Shen&T,&Chen&X,&Zhang&W,&Xi&Y,&Cao&G,&Zhi&Y,&Wang&S,&Xu&C,&Wei&L,&Lu&F*,Zhuang&H*.&A&higher&correlation&of&HCV&core&antigen&with&CD4+&T&cell&counts&compared&with&HCV&RNA&in&HCV/HIV-1&coinfected&patients.&&LoS&One.&):e23550.&
7.Chen&X,&Zhang&L,&Chang&Y,&Shen&T,&Wang&L,&Zhuang&H*Lu&F*.&Association&of&TNF-alpha&genetic&polymorphisms&with&hepatocellular&carcinoma&susceptibility:&a&case-control&study&in&a&Han&Chinese&population.&Int&J&Biol&Markers.):181-187.&
8.Chen&J,&Liang&Z,&Lu&F*,Fang&X,&Liu&S,&Zeng&Y,&Zhu&F,&Chen&X,&Shen&T,&Li&J,&Zhuang&H*&.Toll-like&receptors&and&cytokines/cytokine&receptors&polymorphisms&associate&with&non-response&to&hepatitis&B&vaccine.&Vaccine.(4):706-11.&
9.Shen&T,&Zheng&J,&Liang&H*Xu&C,&Chen&X,&Zhang&T,&Xu&Q,&Lu&F*.Characteristics&and&PD-1&expression&of&peripheral&CD4+CD127loCD25hiFoxP3+&Treg&cells&in&chronic&HCV&infected-patients.Virol&J.&.
10.Geng&J,&Wang&L*&Wang&X,&Fu&H,&Bu&Q,&Liu&P,&Zhu&Y,&Wang&M,&Sui&Y,&Zhuang&H*.Potential&risk&of&zoonotic&transmission&from&young&swine&to&human:&seroepidemiological&and&genetic&characterization&of&hepatitis&E&virus&in&human&and&various&animals&in&Beijing,&China.&J&Viral&Hepat.):e583-90.&
11.Geng&J,&Wang&L*&Wang&X,&Fu&H,&Bu&Q,&Zhu&Y,&Zhuang&H*.Study&on&prevalence&and&genotype&of&hepatitis&E&virus&isolated&from&Rex&Rabbits&in&Beijing,&China.&J&Viral&Hepat.):661-7.&
12.Geng&J,&Fu&H,&Wang&L*&Bu&Q,&Liu&P,&Wang&M,&Sui&Y,&Wang&X,&Zhu&Y,&Zhuang&H*.&Phylogenetic&analysis&of&the&full&genome&of&rabbit&hepatitis&E&virus&(rbHEV)&and&molecular&biologic&study&on&the&possibility&of&cross&species&transmission&of&rbHEV.&Infect&Genet&Evol.&):2020-5.&
13.Teng&X,&Song&J,&Zhang&G,&Cai&Y,&Yuan&F,&Du&J,&Tang&C,&Qi&Y*.&Inhibition&of&endoplasmic&reticulum&stress&by&intermedin(1-53)&protects&against&myocardial&injury&through&a&PI3&kinase-Akt&signaling&pathway.&J&Mol&Med&(Berl).):.
14.Zhang&J,&Zhang&BH,&Yu&YR,&Tang&CS,&Qi&YF*.&Adrenomedullin&protects&against&fructose-induced&insulin&resistance&and&myocardial&hypertrophy&in&rats.&Peptides.):1415-21.
15.Chen&YH*&Wang&PP,&Wang&XM,&He&YJ,&Yao&WZ,&Qi&YF*&Tang&CS.&&Involvement&of&endogenous&hydrogen&sulfide&in&cigarette&smoke-induced&changes&in&airway&responsiveness&and&inflammation&of&rat&lung.Cytokine.):334-41.&
16.Wang&B,&Zhang&H,&Zhu&M,&Luo&Z,&Peng&Y*&&MEK1-ERKs&signal&cascade&is&required&for&the&replication&of&Enterovirus&71&(EV71).&Antiviral&Res.&2011&;3.[Epub&ahead&of&print]&
17.Guo&J,&Nair&MK,&Galván&EM,&Liu&SL*,&Schifferli&DM*.&&Tn5AraOut&mutagenesis&for&the&identification&of&Yersinia&pestis&genes&involved&in&resistance&towards&cationic&antimicrobial&peptides.&MicrobPathog.):121-32.&
18.Feng&Y,&Chen&Z,&Liu&SL*.&&Gene&decay&in&Shigella&as&an&incipient&stage&of&host-adaptation.&PLoS&One.&):e27754.&
19.Hao&M,&Chen&X*,&Zhang&T,&ShenT,&Xie&Q,&Xing&XJ,&Gu&HX,&Lu&FM.&&Impaired&nuclear&export&of&tumor-derived&c-terminal&truncated&cyclin&D1&mutant&in&ESCC&cancer.&&ONCOLOGY&LETTERS&):
20.Zou&QH*,&Li&RQ.&&Helicobacter&pylori&in&the&oral&cavity&and&gastric&mucosa:&a&meta-analysis.&&J&Oral&Pathol&Med.&):317-24.&
神经生物学系
1.Han&JS*.&Acupuncture&analgesia:&areas&of&consensus&and&controversy.&Pain.&):&S41-8.&
2.Zhang&R,&Feng&XJ,&Guan&Q,&Cui&W,&Zheng&Y,&Sun&W,&Han&JS*.&Increase&of&success&rate&for&women&undergoing&embryo&transfer&by&transcutaneous&electrical&acupoint&stimulation:&a&prospective&randomized&placebo-controlled&study.&FertilSteril.&):&912-6.
3.Lambert&C,&Berlin&I,&Lee&TL,&Hee&SW,&Tan&ASL,&Picard&D,&Han&JS*.&A&standardized&transcutaneous&electric&acupoint&stimulation&for&relieving&tobacco&urges&in&dependent&smokers.&Evid&Based&Complement&Alternat&Med.&2011.
4.Wang&J,&Li&D,&Li&XL,&Liu&FY,&Xing&GG,&Cai&J,&Wan&Y*.&Phase-amplitude&coupling&between&theta&and&gamma&oscillations&during&nociception&in&rat&electroencephalography.NeurosciLett.&):84-7.
5.Yi&M,&Zhang&HL,&Lao&LX,&Xing&GG,&Wan&Y*.&Anterior&cingulate&cortex&is&crucial&for&contra-&but¬&ipsi-lateral&electro-acupuncture&in&the&formalin-induced&inflammatory&pain&model&of&rats.Mol&Pain.&.
6.Liu&FY,&Qu&XX,&Cai&J,&Wang&FT,&Xing&GG*,&Wan&Y*.&Electrophysiological&properties&of&spinal&wide&dynamic&range&neurons&in&neuropathic&pain&rats&following&spinal&nerve&ligation.Neurosci&Bull.&):&1-8.
7.Liu&FY,&Liu&FY,&Sun&YN,&Wang&FT,&Li&Q,&Su&L,&Zhao&ZF,&Meng&XL,&Zhao&H,&Wu&X,&Sun&Q,&Xing&GG*,&Wan&Y*.&Activation&of&satellite&glial&cells&in&lumbar&dorsal&root&ganglia&contributes&to&neuropathic&pain&after&spinal&nerve&ligation.&Brain&Res.&:&65-77.
8.Xia&W,&Chu&NN,&Liang&J,&Li&YJ,&Zhang&R,&Han&JS,&Cui&CL*.Electroacupuncture&of&2&Hz&has&a&rewarding&effect:&evidence&from&a&conditioned&place&preference&study&in&rats.&Evid&Based&Complement&Alternat&Med.&&2012.
9.Wang&GB,&Wu&LZ,&Yu&P,&Li&YJ,&Ping&XJ,&Cui&CL*.&Multiple&100&Hz&electroacupuncture&treatments&produced&cumulative&effect&on&the&suppression&of&morphine&withdrawal&syndrome:¢ral&preprodynorphin&mRNA&and&p-CREB&implicated.&Peptides.&):&713-21.
10.Ma&YY,&Yu&P,&Guo&CY,&Cui&CL*.Effects&of&ifenprodil&on&morphine-induced&conditioned&place&preference&and&spatial&learning&and&memory&in&rats.Neurochem&Res.&):&383-91.&
11.Lv&XF,&Xu&Y,&Han&JS,&Cui&CL*.&Expression&of&activity-regulated&cytoskeleton-associated&protein&(Arc/Arg3.1)&in&the&nucleus&accumbens&is&critical&for&the&acquisition&expression&and&reinstatement&of&morphine-induced&conditioned&place&preference.&Behav&Brain&Res.&&(1):&182-91.
12.Zuo&YF,&Wang&XS,&Cui&CL*,&Luo&F,&Yu&P,&Wang&XW.&Cocaine-induced&impulsive&choices&are&accompanied&by&impairing&delay-dependent&anticipatory&activity&in&basolateral&amygdale.&J&Cogn&Neurosci.&):&196-211.
13.Ping&X,&Ma&Y,&Li&Y,&Qi&C,&Sun&X,&Lv&X,&Cui&CL*.&Essential&role&of&protein&kinase&c&in&morphine-induced&rewarding&memory.Neuropharmacology.&&):&959-966.
14.Li&CY,&Zhao&R,&Gao&K,&Wei&Z,&Yin&MY,&Lau<,&Chui&DH,&Yu&ACH*.&Astrocytes:&implications&for&neuroinflammatory&pathogenesis&of&Alzheimer's&disease.&Curr&Alzheimer&Res.&):&67-80.&&
15.Yang&CZ,&Li&HL,&Zhou&Y,&Chai&RC,&Zhao&R,&Dong&Y,&Xu&ZY,&Lau<,&Zhang&YG,&Teng&JL,&Chen&JG,&Yu&ACH*.&A&new&specialization&in&astrocytes:&glutamate-&and&ammonia-induced&nuclear&size&changes.&J&Neurosci&Res.&):&2041-51.
16.Zhang&F,&Liu&S,&Yang&F,&Zheng&J,&Wang&KW*.Identification&of&a&tetrameric&assembly&domain&in&the&c&terminus&of&heat-activated&trpv1&channels.J&Biol&Chem.&):&15308-16.
17.Bi&YP,&Chen&H,&Su&J,&Cao&X,&Bian&XL,&Wang&KW*.&Visceral&hyperalgesia&induced&by&forebrain-specific&suppression&of&native&Kv7/KCNQ/M-current&in&mice.&Mol&Pain..
18.Su&J,&Cao&X,&Wang&KW*.&A&novel°radation&signal&derived&from&distal&C-terminal&frame-shift&mutations&of&KCNQ2&which&cause&neonatal&epilepsy.&J&Biol&Chem.&):&42949-58.
19.Sun&M,&Zhou&T,&Zhou&L,&Chen&Q,&Yu&Y,&Yang&H,&Zhong&K,&Zhang&X,&Xu&F,&Cai&S,&Yu&A,&Zhang&H,&Xiao&R,&Xiao&D,&Chui&DL*.&Formononetin&protects&neurons&against&hypoxia-induced&cytotoxicity&through&upregulation&of&ADAM10&and&sAβPPα.&J&Alzheimers&Dis.&2011.
20.Wang&YY,&Qin&J,&Han&Y,&Cai&J,&Xing&GG*.&Hyperthermia&induces&epileptiform&discharges&in&cultured&rat&cortical&neurons.&Brain&Res.&:&87-102.
21.Li&HY,&Zhang&R,&Cui&CL,&Han&JS,&Wu&LZ*.Damage&of&splenic&T&lymphocyte&proliferation&and&differentiation&and&its&normalization&by&electroacupuncture&in&morphine-dependent&mice&mode.Evid&Based&Complement&Alternat&Med.&.
22.Li&YJ,&Zhong&F,&Yu&P,&Han&JS,&Cui&CL*,&Wu&LZ*.Electroacupuncture&treatment&normalized&sleep&disturbance&in&morphine&withdrawal&rats.&Evid&Based&Complement&Alternat&Med.&.&
23.Yi&M*,&Zhang&HL.&Nociceptive&memory&in&the&brain:&cortical&mechanisms&of&chronic&pain.&J&Neurosci.&):&13343-5.
1.Chen&J,&Liu&B,&Yuan&J,&Yang&J,&Zhang&J,&An&Y,&Tie&L,&Pan&Y,&Li&X*.&Atorvastatin&reduces&vascular&endothelial&growth&factor&(VEGF)&expression&in&human&non-small&cell&lung&carcinomas&(NSCLCs)&via&inhibition&of&reactive&oxygen&species&(ROS)&production.&MolOncol.&&):&62-72.
2.Pan&Y,&Lei&T,&Teng&B,&Liu&J,&Zhang&J,&An&Y,&Xiao&Y,&Han&J,&Pan&X,&Wang&J,&Yu&H,&Ren&H,&Li&X*.&Role&of&vimentin&in&the&inhibitory&effects&of&low-molecular-weight&heparin&on&PC-3M&cell&adhesion&to,&and&migration&through,&endothelium.J&PharmacolExpTher.&):82-92.&Epub&2011&Jul&6.
3.Ma&B,&Pan&Y,&Song&Q,&Tie&L,&Zhang&Y,&Xiao&Y,&Zhang&J,&Han&J,&Xu&Y,&Xiang&Y,&Yu&HM,&Li&XJ*.&The&effect&of&topiramate&on&tumor-related&angiogenesis&and&on&the&serum&proteome&of&mice&bearing&Lewis&lung&carcinoma.Eur&J&Pharmacol.&-3):9-16.
4.Cui&XY,&Cui&SY,&Zhang&J,&Wang&ZJ,&Yu&B,&Sheng&ZF,&Zhang&XQ,&Zhang&YH*.Extract&of&Ganodermalucidum&prolongs&sleep&time&in&rats.&J&Ethnopharmacol.&&):&796-800.
5.Cui&SY,&Cui&XY,&Zhang&J,&Wang&ZJ,&Yu&B,&Sheng&ZF,&Zhang&XQ,&Shi&XL,&Zhang&YH*.&Diltiazem&potentiates&pentobarbital-induced&hypnosis&via&5-HT1A&and&5-HT2A/2C&receptors:&role&for&dorsal&raphe&nucleus.&PharmacolBiochemBehav.&):566-72.&
6.Cui&SY,&Cui&XY,&Zhang&J,&Wang&ZJ,&Yu&B,&Sheng&ZF,&Zhang&XQ,&Shi&XL,&Zhang&YH*.&Ca2+&modulation&in&dorsal&raphe&plays&an&important&role&in&NREM&and&REM&sleep®ulation&during&pentobarbital&hypnosis.&Brain&Res.&-8.&
7.Li&X,&Ran&J,&Zhou&H,&Lei&T,&Zhou&L,&Han&J,&Yang&B*.&Mice&Lacking&Urea&Transporter&UT-B&Display&Depression-Like&Behavior.J&MolNeurosci.&2011.&[Epub&ahead&of&print]
8.Gao&J,&Zhou&H,&Lei&T,&Zhou&L,&Li&W,&Li&X,&Yang&B*.&Curcumin&inhibits&renal&cyst&formation&and&enlargement&in&vitro&by®ulating&intracellular&signaling&pathways.&Eur&J&Pharmacol.&):92-9.&
9.Liu&L,&Lei&T,&Bankir&L,&Zhao&D,&Gai&X,&Zhao&X,&Yang&B*.&Erythrocyte&permeability&to&urea&and&water:&comparative&study&in&rodents,&ruminants,&carnivores,&humans,&and&birds.&J&Comp&Physiol&B.&):65-72.&
10.Lei&T,&Zhou&L,&Layton&AT,&Zhou&H,&Zhao&X,&Bankir&L,&Yang&B*.&Role&of&thin&descending&limb&urea&transport&in&renal&urea&handling&and&the&urine&concentrating&mechanism.Am&J&Physiol&Renal&Physiol.&):F1251-9.&
11.Lin&G,&Zhao&L,&Yin&F,&Lan&R,&Li&L,&Zhang&X,&Zhang&H,&Yang&B*.&TCF3&inhibits&F9&embryonal&carcinoma&growth&by&the&down-regulation&of&Oct4.&Oncol&Rep.&):893-9.
12.Yin&SJ,&Ni&YB,&Wang&SM,&Wang&X,&Lou&YQ,&Zhang&GL*.&Differences&in&genotype&and&allele&frequency&distributions&of&polymorphic&drug&metabolizing&enzymes&CYP2C19&and&CYP2D6&in&mainland&Chinese&Mongolian,&Hui&and&Han&populations.J&Clin&Pharm&Ther.&&):&364-369.
13.Gu&Y,&Mao&Y,&Li&H,&Zhao&S,&Yang&Y,&Gao&H,&Yu&J,&Zhang&X,&Irwin&DM,&Niu&G,&Tan&H*.&Long-term&renal&changes&in&the&liver-specific&glucokinase&knockout&mouse:&implications&for&renal&disease&in&maturity-onset&diabetes&of&the&young&2.&Transl&Res.&):111-6.&
14.Sun&LX,&Chen&LH,&Lin&ZB,&Qin&Y,&Zhang&JQ,&Yang&J,&Ma&J,&Ye&T,&Li&WD*.&Effects&of&Ganodermalucidum&polysaccharides&on&IEC-6&cell&proliferation,&migration&and&morphology&of&differentiation&benefiting&intestinal&epithelium&healing&in&vitro.J&Pharm&Pharmacol.&):.&
15.Chen&LH,&Lin&ZB,&Li&WD*.Ganodermalucidum&polysaccharides&reduce&methotrexate-induced&small&intestinal&damage&in&mice&via&induction&of&epithelial&cell&proliferation&and&migration.&ActaPharmacol&Sin.&):1505-12.
16.Sun&LX,&Lin&ZB,&Duan&XS,&Lu&J,&Ge&ZH,&Li&XJ,&Li&M,&Xing&EH,&Jia&J,&Lan&TF,&Li&WD*.&Ganodermalucidum&polysaccharides&antagonize&the&suppression&on&lymphocytes&induced&by&culture&supernatants&of&B16F10&melanoma&cells.&J&Pharm&Pharmacol.&):725-35.&
17.Sun&LX,&Lin&ZB,&Li&XJ,&Li&M,&Lu&J,&Duan&XS,&Ge&ZH,&Song&YX,&Xing&EH,&Li&WD*.&Promoting&effects&of&Ganodermalucidum&polysaccharides&on&B16F10&cells&to&activate&lymphocytes.Basic&ClinPharmacolToxicol.&):149-54.&
18.Ou&Y,&Li&W*,&Li&X,&Lin&Z,&Li&M.&Sinomenine&reduces&invasion&and&migration&ability&in&fibroblast-like&synoviocytes&cells&co-cultured&with&activated&human&monocytic&THP-1&cells&by&inhibiting&the&expression&of&MMP-2,&MMP-9,&CD147.&Rheumatol&Int.&):1479-85..
1.Huang&Y,&Li&R,&Chen&X,&Zhuo&Y,&Jin&R,&Qian&XP,&Jiang&YQ,&Zeng&ZH,&Zhang&Y&*,&Shao&QX.&Doxycycline&up-regulates&the&expression&of&IL-6&and&GM-CSF&via&MAPK/ERK&and&NF-κB&pathways&in&mouse&thymic&epithelial&cells.&IntImmunopharmacol.&):1143-9.
2.Tian&L,&Li&W,&Wang&J,&Zhang&Y,&Zheng&Y,&Qi&H,&Guo&X,&Zhang&Y,&Ma&D,&Shen&H,&Wang&Y&*.&The&CKLF1-C19&peptide&attenuates&allergic&lung&inflammation&by&inhibiting&CCR3-&and&CCR4-mediated&chemotaxis&in&a&mouse&model&of&asthma.Allergy.&):287-97.&
3.Zhang&Y,Tian&L,&Zheng&Y,&Qi&H,&Guo&C,&Sun&Q,&Xu&E,&Zhang&Y,&Ma&D,&Wang&Y&*.C-terminal&peptides&of&chemokine-like&factor&1&signal&through&chemokine&receptor&CCR4&to&cross-desensitize&the&CXCR4.&BiochemBiophys&Res&Commun.&):356-61.
4.Zheng&Y,&Guo&C,&Zhang&Y,&Qi&H,&Sun&Q,&Xu&E,&Zhang&Y,&Ma&D,&Wang&Y&*.&Alleviation&of&murine&allergic&rhinitis&by&C19,&a&C-terminal&peptide&of&chemokine-like&factor&1&(CKLF1).IntImmunopharmacol.):2188-93.&
5.ZhangS,&QiH,&YakufuP,&ZhaoF,&LingX,&XiaoJ,&WangY&*.Screening&of&thiourea&derivatives&and&carbonyl-2-aminothiazole&derivatives&forpotential&CCR4&antagonists&using&capillary&zone&electrophoresis.J&Chromatogr&B&AnalytTechnol&Biomed&Life&Sci.):75-82.&
6.Teng&F,&Zhou&Y,&Jin&R,&Chen&Y,&Pei&X,&Liu&Y,&Dong&J,&Wang&W,&Pang&X,&Qian&X,&Chen&WF,&Zhang&Y,&Ge&Q&*.The&molecular&signature&underlying&the&thymic&migration&and&maturation&of&TCRαβ+&CD4+&CD8&thymocytes.&PLoS&One.&):e25567
7.Zhao&P,&Zhang&L,&Zhong&W,&Ying&X,&Huang&H,&Yao&B,&Yuan&Z,&Fu&J,Wang&Y*,Zhou&Z.&Antigen-subtracted&2-DE/MS&strategy,&a&novel&proteomic&analysis&platform.Arch&Toxicol.):35-41.&
8.Wen&W,&Zhang&L,&Peng&J,&Chen&J,&Hao&J,&Li&X,&Qian&X,&Zeng&P,&Zhang&Y,&Yin&Y&*,.Identification&of&promiscuous&HLA-DR-restricted&CD4?&T-cell&epitopes&on&thecancer-testis&antigen&HCA587.&Cancer&Sci.):1455-61.&
9.Li&Q,&Wang&L,&Tan&W,&Peng&Z,&Luo&Y,&Zhang&Y,&Zhang&G,&Na&D,&Jin&P,&Shi&T,&Ma&D,&Wang&L&*,.&Identification&of&C1qTNF-related&protein&4&as&a&potential&cytokine&that&stimulates&the&STAT3&and&NF-κB&pathways&and&promotes&cell&survival&in&human&cancer&cells.Cancer&Lett.&(2):203-14.&
10.Lv&D,&Zhao&W,&Dong&D,&Qian&XP,&Zhang&Y,&Tian&XJ,&Zhang&J&*,.&Genetic&and&epigenetic&control&of&UNC5C&expression&in&human&renal&cellcarcinoma.Eur&J&Cancer.&):2068-76.&
11.Peng&Z,&JiZ&,&Shi&T*,&Ma&D&.&RNF122&Induces&Cell&Apoptosis&Dependent&on&Its&RING&Domain.&ProgBiochemBiophys&&):816-820
12.Wang&P,&Sun&B,&Hao&D,&Zhang&X,&Shi&T*,&Ma&D.&Human&TMEM174&thatis&highly&expressed&in&kidney&tissue&activates&AP-1&andpromotes&cell&proliferation.&BiochemBiophys&Res&Commun.&):993-9.
细胞生物学系
1.,&,&,&,&,&,&,&,&,&*.Inducible&expression&of&stem&cell&associated&intermediate&filament&nestin&reveals&an&important&role&in&glioblastoma&carcinogenesis.&):343-51.&
2.,&,&,&,&,&,&,&,*.&Inhibition&of&mouse&embryonic&carcinoma&cell&growth&by&lidamycin&through&down-regulation&of&embryonic&stem&cell-like&genes&Oct4,&Sox2&and&Myc.&):1188-97.
3.,&,&,&,&,&,&,&,&,*.&Long-term&cultured&human&neural&stem&cells&undergo&spontaneous&transformation&to&tumor-Initiating&cells.&):892-901.
4.,&,&,&,&,&,&,&,&*.&A&small&ribosomal&subunit&(SSU)&processomecomponent,&the&human&U3&protein&14A&(hUTP14A)&binds&p53&and&promotes&p53°radation.&):3119-28.
5.,&,&,&,&,&,&*.&hALP,&a&novel&t-UTP,&activates&polymerase&I&transcription&by&binding&and&acetylating&the&upstream&binding&factor.&):7139-48.
6.,&,&,&,&*.AIB1&as&an&Independent&prognostic&marker&in&hepatocellular&carcinoma&after&hepatic&resection.&2011&Nov&4.
7.,&,&,&,&,*.Enhancement&of&the&immunogenicity&of&synthetic&carbohydrate&vaccines&by&chemical&modifications&of&STnantigen.&):252-9.
8.,&,&,&,&,&,&*.&Combined&lysosomal&protein&transmembrane&4&beta-35&and&argininosuccinatesynthetase&expression&predicts&clinical&outcome&in&hepatocellular&carcinoma&patients.&):810-7.
9.,&,&,&,&,&,&,&,&,&,&*.&Upregulation&of&LAPTM4B-35&promotes&malignant&transformation&and&tumorigenesis&in&L02&umanliver&cell&line.&):1135-42.
10.M.&Lin,&H.Yang,&R.Qi,&K.Yan,&X.Wang,&G.shao,&R.Zhou.ASS&is&down-regulated&by&promoter&CpG&methylation&in&hepatocellular&carcinoma.Hepatology&international.):&430-431
11.,&,&,&,&,&,&,&*.&LAPTM4B&overexpression&is&a&novel&predictor&of&epithelial&ovarian&carcinoma&metastasis.):629-35.
12.,&,&,&,&*.Reprogramming&of&sheep&fibroblasts&into&pluripotency&under&a&drug-inducible&expression&of&mouse-derived&defined&factors.&):e15947.
13.,&,&,&,&,&,&,&*.&Pax6®ulates&the&epidermal&growth&factor-responsive&neural&stem&cells&of&the&subventricular&zone.&&):448-52.
人体解剖学与组织胚胎学系
1.Khan&AA,&Janke&A,&Shimokawa&T,&Zhang&H*.&Phylogenetic&analysis&of&kindlins&suggests&subfunctionalization&of&an&ancestral&unduplicated&kindlin&into&three¶logs&in&vertebrates.&EvolBioinform&Online.-19
2.Khan&AA,&Shimokawa&T,&Str?mblad&S,&Zhang&H*.&&Functional&characterization&of&human&Kindlin-2&core&promoter&identifies&a&key&role&of&SP1&in&Kindlin-2&transcriptional®ulation.&Cell&MolBiolLett.):638-51.&
3.Hu&Q,&Ma&Q,&Zhan&Y,&He&Z,&Tang&J,&Zhou&C,&Zhang&J*.&Isoflurane&enhanced&hemorrhagic&transformation&by&impairing&antioxidant&enzymes&in&hyperglycemic&rats&with&middle&cerebral&artery&occlusion.):1750-6
4.Hu&Q,&Chen&C,&Khatibi&NH,&Li&L,&Yang&L,&Wang&K,&Han&J,&Duan&W,&Zhang&JH,&Zhou&C.*Lentivirus-mediated&transfer&of&MMP-9&shRNA&provides&neuroprotection&following&focal&ischemic&brain&injury&in&rats.&Brain&Res.&:347-59.
5.Lau&BW,&Ren&C,&Yang&J,&Yan&SW,&Chang&RC,&Pu&M*,So&KF*.Light&deprivation&induces&depression-like&behavior&and&suppresses&neurogenesis&in&diurnal&mongolian&gerbil&(Merionesunguiculatus).Cell&Transplant.&):871-81.
6.Luan&L,Ren&C,&Lau&BW,&Yang&J,&Pickard&GE,&So&KF*,Pu&M*.&Y-like&retinal&ganglion&cells&innervate&the&dorsal&raphe&nucleus&in&the&Mongolian&gerbil&(Merionesunguiculatus).&PLoS&One.):e18938.
7.Zhang&L,&Lu&DY,&Ma&WY,&Li&Y*.&Age-related&changes&in&the&localization&of&DNA&methyltransferases&during&meiotic&maturation&in&mouse&oocytes.&FertilSteril.&):1531-4
8.Ma&X,&Zhang&H,&Wang&K,&Yang&L,&Qin&L*,&Bai&W*,&Guan&Y,&Jia&J,&Kang&J,&Zhou&C.&Effects&of&an&isopropanolic-aqueous&black&cohosh&extract&on¢ral&body&temperature&of&ovariectomized&rats.&Ethnopharmacol.&2011&Oct&31;138(1):156-61.
9.Yan&J*,&Li&L,&Khatibi&NH,&Yang&L,&Wang&K,&Zhang&W,&Martin&RD,&Han&J,&Zhang&J,&Zhou&C*.&Blood-brain&barrier&disruption&following&subarchnoid&hemorrhage&may&be&faciliated&through&PUMA&induction&of&endothelial&cell&apoptosis&from&the&endoplasmic&reticulum.Exp&Neurol.):240-7.&
1.*,&,&,&,&.&Role&of&peroxisome&proliferator-activated&receptor-gamma&in&atherosclerosis&-&an&Update.CircJ&.&):&528-535
2.Wang&Y,&Zhao&B,&Zhang&Y,&Tang&Z,&Shen&Q,&Zhang&Y,&Zhang&W,&Du&J,&Chien&S,&Wang&N*:&Krüppel-like&factor&4&is&induced&by&rapamycin&and&mediates&the&anti-proliferative&effect&of&rapamycin&in&balloon-injured&rat&carotid&arteries.Br&J&Pharmacol.2011.
3.,&,&,&,&,&,&,&,&,&*,&.&Seipin&ablation&in&mice&results&in&severe&generalized&lipodystrophy.&.&):&
4.,&,&,&,&,&*,&.&Hypertriglyceridemia&and&delayed&clearance&of&fat&load&in&transgenic&rabbits&expressing&human&apolipoprotein&CIII..&):&867-875
5.Ding&Y,&Zhang&L,&Wang&Y,&Huang&W,&Tang&Y,&Bai&L,&Ross&CJR,&Hayden&MR,&Liu&G*:Ameliorationofhypertriglyceridemia&with&hypo-alpha-cholesterolemia&in&LPL&deficient&mice&by&hematopoietic&cell-derived&LPL.&PLos&One,&):e25620.
6.Wei&J,&Ouyang&H,&Wang&Y,&Pang&D,&Cong&XN,&Wang&T,&Leng&B,&Li&D,&Li&X,&Wu&R,&Gao&F,&Deng&Y,&Liu&B,&Li&Z,&Lai&L,&Feng&H,&Liu&G*,&Deng&X.&Characterization&of&A&hypertriglyceridemictransgenic&miniature&swine&model&expressing&human&apolipoprotein&CIII.&FEBS&J.&2011.&Epub&ahead&of&print
7.,&,&,&,&,&,&,&,&,&*.&Humanapolipoprotein&A-I&induces&cyclooxygenase-2&expression&and&prostaglandin&I-2&release&in&endothelial&cells&through&ATP-binding&cassette&transporter&A1..&):&C739-C748.
8.Liu&D,&Ji&L,&Zhang&D,&Tong&X,&Pan&B,&Liu&P,&Zhang&Y,&Huang&Y,&Su&J,&Willard&B,&and&Zheng&L*.&Nonenzymaticglycation&of&HDL&impairs&its&anti-inflammatory&effects&in&innate&immunity.&.&2011.&
9.Pan&B,&Ren&H,&Ma&Y,&Liu&D,&Yu&B,&Ji&L,&Pan&L,&Li&J,&Yang&L,&Lv&X,&Shen&X,&Chen&B,&Zhang&Y,&Willard&B,&He&Y,Zheng&L*:&HDL&of&patients&with&Type&2&diabetes&mellitus&elevates&the&capability&of&promoting&migration&and&invasion&of&breast&cancer&cells.Int&J&Cancer.&2011.&
放射医学教研室
1.Liu&Z,&Shi&J,&Jia&B*,&Yu&Z,&Liu&Y,&Zhao&H,&Li&F,&Tian&J,&Chen&X,&Liu&S,&Wang&F&*,.Two&??Y-labeled&multimeric&RGD&peptides&RGD4&and&3PRGD2&for&integrin&targeted&radionuclide&therapy.&Mol&Pharm.&):591-9.
2.Liu&Z,&Jia&B,&Zhao&H,&Chen&X,&Wang&F&*,.&Specific&targeting&of&human&integrin&α(v)β&(3)&with&(111)In-labeled&Abegrin?&in&nude&mouse&models.&Mol&Imaging&Biol.):112-20.
3.Jia&B,&Liu&Z,&Zhu&Z,&Shi&J,&Jin&X,&Zhao&H,&Li&F,&Liu&S,&Wang&F&*,.&Blood&clearance&kinetics,&biodistribution,&and&radiation&dosimetry&of&a&kit-formulated&integrin&αvβ3-selective&radiotracer&99mTc-3PRGD&2&in&non-human&primates.Mol&Imaging&Biol.):730-6.
4.Ma&X,&Liu&Z,&Yang&X,&Gao&Q,&Zhu&S,&Qin&C,&Liu&K,&Zhang&B,&Han&D,&Wang&F*,&Tian&J&*,.Dual-modality&monitoring&of&tumor&response&to&cyclophosphamide&therapy&in&micewith&bioluminescence&imaging&and&small-animal&positron&emission&tomography.&Mol&Imaging.):278-83.
5.Wang&D,&Shi&J,&Tan&J,&Jin&X,&Li&Q,&Kang&H,&Liu&R,&Jia&B*,&Huang&Y.&Synthesis,&characterization,&and&in&vivo&biodistribution&of&125I-labeled&Dex-g-PMAGGCONHTyr.&Biomacromolecules.&):1851-9.&
6.Wang&D,Liu&R,&Che&N,&Li&Q,&Li,&Z,&Tian&Y,&Kang&H,&Jia,&B*;&Huang&Y&,.&Improving&the&blood&clearance&time&of&(125)I&labeled&Dex-g-PMAGGCONHTyr&by&copolymerization.&Polymer&Chemistry.&):&.
中西医结合学系
1.,&,&,&,&,&,&,&,&,&,&,&*.&Caffeic&acid&inhibits´&hyperhomocysteinemia-induced&leukocyte&rolling&and&adhesion&in&mouse&cerebral&venules.&2011&Dec&6.
2.,&,&,&,&,&,&,&,&,&,&*.&Effects&of&dihydroxylphenyl&lactic&acid&on&inflammatory&responses&in&spinal&cord&injury.0-8
3.,&,&,&,&*.A&rapid&and&simple&RP-HPLC&method&for&quantification&of&kirenol&in&rat&plasma&after&oral&administration&and&its&application&to&pharmacokinetic&study.Biomedical.Chromatography.&):542-6.
4.,&,&,&,&,&*.Kirenolupregulates&nuclear&Annexin-1&which&interacts&with&NF-kappa&B&to&attenuate&synovial&inflammation&of&collagen-induced&arthritis&in&rats.):774-82.
医学信息学系
1.,&,&,&,*.The&relationship&between&rational&drug&design&and&drug&side&effects.&2011&Sep&23.
2.,&,&,&,&*.miREnvironment&Database:&providing&a&bridge&forµRNAs,&environmental&factors,&and&phenotypes.&):3329-30.
3.Qiu&C,&Wang&J,&*.&miR2Gene:&Pattern&discovery&of&single&gene,&multiple&genes,&and&pathways&by&enrichment&analysis&of&theirµRNA®ulators.&BMC&Systems&Biology.&2011;&5(Suppl&2):S9&
4.,&,&,&,&*.SpliceDisease&database:&linking&RNA&splicing&and&disease.&&):D1055-9.
5.,&,&,&,&,&,&,&*.&Characterization&and&prediction&of&lysine&(K)-acetyl-transferase&(KAT)&specific&acetylation&sites.&&):&M111.&011080.
医学遗传学系
1.,&,&,&,*.&Two&novel&heterozygous&mutations&of&EVC2&cause&a&mild&phenotype&of&Ellis-van&Creveld&syndrome&in&a&Chinese&family.):2131-6.&
2.,&,&,&,&,&,&,&,&,&,&*.&A&Proteomic&Investigation&of&B&Lymphocytes&in&an&Autistic&Family:&A&Pilot&Study&of&Exposure&to&Natural&Rubber&Latex&(NRL)&May&Lead&to&Autism.&&):443-52.
3.Liu&X,&,&,&,&*.&Mutational&analysis&in&familial&and&sporadic&patients&with&white&sponge&naevus.):448-51.
4.,&,&,&,&,&,&,&*.&Correlation&between&the&phenotypes&and&genotypes&of&X-linked&hypohidrotic&ectodermal&dysplasia&and&non-syndromichypodontia&caused&by&ectodysplasin-A&mutations.):e377-82.
8、2011年中文核心期刊论文目录
1.李贤慧,贾竹青,崔庆华,马康涛,周春燕*.稳定转染MiR-499对P19CL6细胞向心肌细胞分化的影响.&中国生物化学与分子生物学报):&316-322.
2.李涛,胡晓青,姜科声,周春燕*.&重组GATA4腺病毒的构建及心肌细胞感染.&浙江师范大学学报(自然科学版).&2011(5);&34&(2):&191-196.
3.张怀岺,金新安,高嵩*.&磁共振扩散张量成像扩散椭球面积的简化计算方法.&中国医学物理学杂志.&28(3):&.&
4.Zhang&HL,&Wang&X,&Gao&S*.&A&novel&implement&scheme&of&diffusion&sensitive&gradient&magnetic&field&for&magnetic&resonance&diffusion&weighted&spectroscopy.&Space&Medicine&&&Medical&Engineering,&24(3):&215-217.
5.张化宇,唐寅,常青,刘璐,王宇辉,蒋孟茜,韩迎春,祁荣,刘国庆*.小鼠对雨蛙肽诱发急性胰腺炎易感性的品系差异.&中国病理生理杂志.&):&.&
6.郑琴,方东,刘敏,姜红,蔡捷,万有,邢国刚*.骨癌痛大鼠初级感觉神经元兴奋性的研究.&中国疼痛医学杂志.&):&166-170.
7.段泽君,张永红,时云飞,周春菊,徐教生,薛学敏,李敏,黄欣,张志丽,高子芬*.系统性间变性大细胞淋巴瘤骨髓累及的临床病理学研究.&白血病·淋巴瘤.&):140-143.
8.齐雪岭,李敏,高子芬*.&组织细胞肉瘤六例临床病理学及免疫组织化学特点分析.&白血病·淋巴瘤.&):172-174.&
9.黄欣,高子芬*.&中国人经典霍奇金淋巴瘤中人类白细胞共同抗原表达的研究.&白血病·淋巴瘤.&):454-463.
10.徐教生,李敏,黄欣,张永红,周春菊,薛学敏,段泽君,孙琳,刘翠苓,高子芬*.&36例皮肤天然杀伤细胞/T细胞淋巴瘤临床病理学研究.&中华皮肤科杂志.&)&611-614.
11.何耀鑫,黄欣,周春菊,孙琳,李敏,薛学敏,段泽君,周莉,高子芬*.&EB病毒编码的小RNA检测在噬血细胞综合征骨髓活检中的意义.&白血病·淋巴瘤.&):532-534.
12.梅放,柳剑英*,张燕,王长秋,鲁安怀,赵文雯,熊翠娥,张波.&乳腺病变伴发生物矿化的类型及机制研究.&矿物学报.&):704-712.
13.蒲晓宇,张思宇,卫兰*,张京,徐彩红.&己烯雌酚对催乳激素在小鼠淋巴结内表达的影响.&解剖学报.):54-60.
14.邵翠萍,陈睿,吕丹瑜,李英*,马万云.&高血糖对小鼠卵母细胞Ca2+震荡和卵泡颗粒细胞肿瘤坏死因子相关凋亡诱导配体表达的影响.&解剖学报.&&):618-621&&&
15.刘玉霞,董静霞,金玉洁,申春艳,徐健*.&人卵巢颗粒细胞的体外培养方法探讨.&中国组织化学与细胞化学杂志.&&):436-439&
16.金玉洁,董静霞,刘玉霞,申春艳,徐健*.Smad3基因促进大鼠卵巢颗粒细胞增殖.&解剖学报.&&):766-&769.
17.王建伟,刘胜勇,雷秀兵,王振宇,成家茂,陈峰,岳兵,王珂,田珑,张卫光*.甲醛熏染模型大鼠肝脏组织增殖细胞核抗原表达与三七复方合剂的干预.&中国组织工程研究与临床康复.&-4。.
18.易婷,张浩,彭宜红*,朱萌,何晓燕,黄孝天.&MEK1-ERKs级联激活方式是调控单纯疱疹病毒Ⅱ型复制的重要机制.中国生物化学与分子生物学报.&):142-147.&
19.王美容,刘学恩,庄辉*.&HBV&cccDNA检测临床应用研究进展.&中国病毒病杂志.&&):395-400.
20.王晓娟,&王玲*,&庄辉*.&戊型肝炎研究最新进展.&中华流行病学杂志.&&):629-631.
21.卜秋宁,王玲*,庄辉*.&戊型肝炎的慢性化趋势及其致病机制.&中国病毒病杂志.&&):10-14.&
22.刘鹏,王玲*,庄辉*.&乙型肝炎病毒与戊型肝炎病毒重叠感染研究进展.&中国病毒病杂志.&):5-9.
23.邹清华,&张浩,&彭宜红*.&当前形势下《医学微生物学》课程教学内容的与时俱进.中华医学科研管理杂志.&):p118-119.
24.何晓燕,&邓娟,&屠静,&鲁凤民,&李彤*:医学微生物学教学中文献综述的应用.中华医学教育杂志.&-59.
25.董林,葛瑞民,祁楠,沈丽*.&shRNA腺病毒介导的JNK1&RNAi抑制U87MG人胶质瘤细胞的增殖.肿瘤防治研究.):767-769.&
26.张小燕,刘胜勇,何其华,陆爱丽,王珂,张卫光,沈丽*.&人胚胎脑室脉络丛上皮细胞表达神经干细胞分子标志.&解剖学报.)2&201-205.
27.张小燕,王亚军,沈丽*.&碱性成纤维细胞生长因子和环磷酸腺苷对神经前提细胞内源性端粒酶反转录酶基因转录水平的调控.解剖学报.&)4&479-484.
28.宋晓莉,王喆明,吴再旺,钱瑞琴*.&奇壬醇对不同大鼠关节炎症模型作用的对比.&中国新药杂志.&)27-261&
29.卢月,曹雅晶,钱瑞琴*.&IL-17在类风湿关节炎发病机制中的作用.&中国免疫学杂志.&):855-859&
30.邓暄,赵红珊*,彭智,邓唯唯,李娜,郭帅,石太平.&C17orf62诱导细胞死亡的作用及其机制.&北京大学学报(医学版).&):&168-172.&
31.苏静,杨郁,马晓龙,由江峰,杜娟,柳剑英,郑杰*.&荧光原位杂交检测乳腺癌人表皮生长因子受体2基因扩增及与临床病理特征的关系.&北京大学学报(医学版)):199-203.
32.杜娟,柳剑英*,苏静.&两种组织脱钙法对免疫组织化学染色影响比较.&北京大学学报(医学版)&):290-294.
33.徐晓艳,由江峰,裴斐*,张波.RNA沉默LASS2基因促进人前列腺癌细胞体外侵袭及其机制研究.北京大学学报(医学版)):814-819.
34.张燕,陈剑,刘海静,陆敏*.&石蜡切片免疫荧光法在肾病穿刺组织中的应用.&北京大学学报(医学版).&):900-902.&}
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