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发布时间:2015-11-20 文章出处:       文章作者:       浏览次数:

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1

Degradation of D53 repressor by the   D14-SCFD3 complex is essential for strigolactone signaling

2013

万建民

南京农业大学

Nature2013.12.11   Online,doi:10.1038/nature12878

38.597

2

A role for a dioxygenase in   auxinmetabolismand reproductive development in rice

2013

万建民

南京农业大学

Developmental Cell, 2013,   27(1):113-122

14.091

3

Tibet is one of the centers of   domestication of cultivated barley

2012

张国平

浙江大学

PROC NATL ACAD   SCI USA. 109: 16969-16973

10.583

4

Comparative genomics suggests that an   ancestral polyploidy event leads to enhanced root nodule symbiosis in the   Papilionoideae

2013

章元明

南京农业大学

Molecular Biology and Evolution   30(12): 2602-2611

10.353

5

Divergent evolutionary pattern of   starch biosynthetic pathway genes in grasses and dicots

2012

章元明

南京农业大学

Molecular Biology and Evolution   29(10): 3227-3236

10.353

6

Serine/threonine kinase gene Stpk-V, a   key member of powdery mildew resistance gene Pm21, confers powdery mildew   resistance in wheat.

2011

王秀娥、陈佩度

南京农业大学

Proceedings of the National Academy of Sciences,USA, 2011, 108 (19): 7727-7732

9.771

7

Great majority of recombination events   in Arabidopsis are gene conversion events

2012

田大成

南京大学

PNAS 109 :20992-20997

9.737

8

Association of functional nucleotide   polymorphisms at DTH2 with the northward expansion of rice cultivation in Asia

2013

万建民

南京农业大学

ProcNatlAcadSci U S A,2013, 110   (8):2775-2780

9.681

9

Ehd4, a CCCH-type positive regulator   of photoperiodic flowering in rice

2013

万建民

南京农业大学

Plos Genetics, 2013,9(2): e1003281

8.694

10

A rice Virescent-Yellow leaf mutant   reveals new insights into the role and assembly of   plastidcaseinolyticprotease in higher plants

2013

万建民

南京农业大学

Plant Physiology, 2013, 162: 1867–1880

7.084

11

A comprehensive genetic study reveals   a crucial roleof CYP90D2/D2 in   regulating plant architecturein rice (Oryza sativa)

2013

万建民

南京农业大学

New Phytologist, 2013, 200: 1076-1088

6.888

12

Tracing the origin and evolutionary   history of plant nucleotide-binding site–leucine-rich repeat (NBS-LRR) genes

2012

田大成

南京大学

New Phytologist 193: 1049–1063

6.736

13

Genomic dissection of small RNAs in   wild rice (O. rufipogon): lessons for rice domestication.

2012

樊龙江

浙江大学

New Phytologist, 2012, 196: 914.

6.7

14

Effect of TRANSPARENT TESTA 2 on Seed   Fatty Acid Biosynthesis and Tolerance to Environmental Stresses during Young   Seedling Establishment in Arabidopsis

2012

蒋立希

浙江大学

Plant Physiology_, October 2012, Vol.   160, pp. 1–14

6.555

15

A Calcium-Dependent Protein Kinase   Interacts with and Activates A Calcium Channel to Regulate Pollen Tube Growth

2013

兰文智

南京大学

Mol Plant (in press)

6.126

16

ABA signaling in guard cells   entails a dynamic protein-protein interaction relay from the PYL-RCAR family   receptors to ion channels

2013

兰文智

南京大学

Mol Plant  6(2):528-38

6.126

17

OsVPS9A functions cooperatively with OsRAB5Ato regulate   post-Golgi dense vesicle-mediated storage protein trafficking to the protein   storage vacuole in rice endosperm cells

2013

万建民

南京农业大学

Molecular Plant, 2013, 6 (6):   1918-1932

6.126

18

BnHO1, a haem oxygenase-1 gene from   Brassica napus, is required for salinity and osmotic stress-induced lateral   root formation

2011

管荣展

南京农业大学

Journal of Experimental Botany,   62(13): 4675–4689

5.364

19

Association of jacalin-related lectins   with wheat responses to stresses revealed by transcriptional profiling

2013

马正强

南京农业大学

Plant Mol Biol, DOI   10.1007/s11103-013-0121-5

5.319

20

TaRLP1.1, a Novel Wheat Receptor-Like   Protein Gene, is Involved in the Defense Response Against Pucciniastriiformis   f. sp. Tritici

2013

曹爱忠

南京农业大学

Journal of Experimental Botany, 2013,   64(12): 3735–3746

5.242

21

Comparative proteomic analysis reveals   the mechanisms governing cotton fiber differentiation and initiation

2012

刘康

南京农业大学

J Proteomics, 75(3): 845-856

4.807

22

Molecular evolution of glycinin and   β-conglycinin gene families in soybean (Glycine max L. Merr.)

2011

章元明

南京农业大学

Heredity 106(4): 633-641

4.597

23

Small RNA profiling in two Brassica   napus cultivars identifies microRNAs with oil production and developmental correlated   expressions and new small RNA classes PLANTPHYSIOL 2011/187666

2012

戚存扣

江苏省农科院

PLANTPHYSIOL 2012,158:813-823/187666

4.5

24

Grain protein content variation and   its association analysis in barley.

2013

张国平

浙江大学

BMC Plant Biology, 13.  DOI:   10.1186/1471-2229-13-35

4.354

25

A Tourist-like MITE insertion in the   upstream region of the BnFLC.A10 gene is associated with vernalization   requirement in rapeseed (Brassica napus L.).

2012

樊龙江

浙江大学

BMC Plant Biology, 2012, 12:238.

4.3

26

Identification of wounding and topping   responsive small RNAs in tobacco (Nicotiana tabacum).

2012

樊龙江

浙江大学

BMC Plant Biology, 2012, 12:28.

4.3

27

Rapid copy number expansion and recent   recruitment of domains in S-receptor kinase-like genes contribute to the   origin of self-incompatibility

2011

田大成

南京大学

FEBS J 278: 4323-4337

4.25

28

QTL analysis of Na+ and K+   concentrations in roots and shoots under different levels of NaCl stress in   rice (Oryza sativa L.).

2012

黄骥

南京农业大学

PLoS One 7(12), e51202

4.2

29

Applying near-infrared spectroscopy   and chemometrics to determine total amino acids in herbicide-stressed oilseed   rape leaves

2011

周伟军

浙江大学

Food and Bioprocess Technology, 4(7):   1314-1321

4.115

30

The novel approach to enhance seed   security: dual anti-counterfeiting methods applied on tobacco pelleted seeds

2013

胡晋

浙江大学

PLOS ONE,2013,8(2): e57274

4.092

31

Substoichiometrically Different   Mitotypes Coexist in Mitochondrial Genomes of Brassica napus L.

2011

管荣展

南京农业大学

PLoS ONE 6(3): e17662

4.092

32

Mitochondrial genome sequencing helps   show the evolutionary mechanism of mitochondrial genome formation in Brassica

2011

管荣展

南京农业大学

BMC Genomics, 12: 497

4.073

33

qLTG-9, a stable quantitative trait   locus for low-temperaturegermination in rice (Oryza sativa L.)

2013

江玲

南京农业大学

TheorAppl Genet.2013, 126:2313–2322

4.055

34

Insights into cadmium induced   physiological and ultra-structural disorders in Juncus effusus L. and its   remediation through exogenous citric acid

2011

周伟军

浙江大学

Journal of Hazardous Materials, 186,   565-574

3.925

35

The mitochondrial genome of soybean   reveals complex genome structures and gene evolution at intercellular and   phylogenetic levels

2013

赵团结

南京农业大学

PLoS ONE, 8(2): e56502

3.73

36

QTL mapping based on different genetic   systems for essential amino acid contents in cottonseed in different   environments,

2013

祝水金

浙江大学

PLoS ONE, 2013, 8(3): e57531

3.73

37

Systematic analysis and comparison of   nucleotide-binding site disease resistance genes in a diploid cotton   Gossypium raimondii,

2013

祝水金

浙江大学

PLoS ONE, 2013,8(8): e68435

3.73

38

Genetic components and major QTL   confer resistance to bean pyralid (Lamprosema indicata Fabricius) under   multiple environments in four RIL populations of soybean.

2012

赵团结

南京农业大学

Theoretical and Applied Genetics,   125:859–875

3.658

39

Identification of single nucleotide   polymorphisms and haplotypes associated with yield and yield components in   soybean (Glycine max) landraces across multiple environments.

2012

喻德跃

南京农业大学

Theoretical and Applied Genetics,   124:447-458

3.6

40

Climate change impacts on regional   winter wheat production in main wheat production regions ofChina

2013

朱艳

南京农业大学

Agricultural and Forest   Meteorology. 171-172(2013): 234-248

3.389

41

Transcriptome analysis reveals   critical genes and key pathways for early cotton fiber elongation in Ligon   Lintless-1 mutant

2012

刘康

南京农业大学

Genomics, 100: 42-50

3.33

42

Effects of Warming and Autonomous   Breeding on the Phenological Development and Grain Yield of Double-Rice   Systems inChina

2013

朱艳

南京农业大学

Agriculture, Ecosystems and   Environment. 165: 28-38

3.004

43

Contrasting   Effects of Warming and Autonomous Breeding on Single-Rice Productivity inChina

2012

朱艳

南京农业大学

Agriculture, Ecosystems and   Environment 149: 20-29

3.004

44

Waterlogging pretreatment   during vegetative growth improves tolerance to waterlogging after anthesis in   wheat

2011

姜东

南京农业大学

Plant Science. 180 (5):   672-678

2.922

45

Multiple heat priming   enhances thermo-tolerance to a later high temperature stress via improving   subcellular antioxidant activities in wheat seedlings.

2013

姜东

南京农业大学

Plant Physiology and   Biochemistry 74: 185-192

2.775

46

Pre-anthesis   high-temperature acclimation alleviates damage to the flag leaf caused by   post-anthesis heat stress in wheat

2011

姜东

南京农业大学

Journal of Plant   Physiology. 168 (6): 585-593

2.699

47

The fates of 15 N   fertilizer in relation to root distributions of winter wheat under different   N splits

2012

戴廷波

南京农业大学

European Journal of   Agronomy 40, 86-93.

2.477

48

Effects of nitrogen   applications on soil nitrogen balance and nitrogen utilization of winter   wheat in a rice–wheat rotation

2012

戴廷波

南京农业大学

Field Crops Research 127,   241-247

2.474

49

Impact of intensive nutrient inputs,   crop variety and climate changes on soil organic matter composition and crop   yields in East China: A case study in the   Taihu Region.

2013

朱艳

南京农业大学

Field Crops Research. 149 (2013):   40–48

2.474

50

Quantifying Three-Decade Changes of   Single Rice Cultivars inChinaUsing Crop Modelling

2013

朱艳

南京农业大学

Field Crops Research. 149 (2013):   84–94

2.474

51

Generation and scavenging   of reactive oxygen species in wheat flag leaves under combined shading and   waterlogging stress

2012

姜东

南京农业大学

Functional Plant Biology.   39 (1): 71-81.

2.471

52

A model for cotton   (Gossypium hirsutum L.) fiber length and strength formation considering temperature-radiation   and N nutrient effects

2012

周治国

南京农业大学

ECOLOGICAL MODELLING,243

2.069

53

Protein expression changes   during cotton fiber elongation in response to low temperature stress

2012

周治国

南京农业大学

JOURNAL OF PLANT   PHYSIOLOGY,169(4):399-409

2.024