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      629գΨ2020ڿӰӣϲǣڴҵŬ־Ӱܿ졣ۺ־УCell Research ﵽ 20.507״γ 20National Science Review 16.693Protein & Cell ﵽ10.164Science Bulletin ﵽ 9.511Journal of Genetics and Genomics 5.065. ֲѧڿУNature Plants Ϊ 13.256Ȼλλڿ Molecular Plant , ﵽ 12.084Horticulture Research 5.404Journal of Integrative Plant Biology Ҳнϴ4.885The Crop Journal 3.395ϣѧߣ֧Լ־

        ȫڿ2020Ӱ2020 SCI Impact Factor.xlsx


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       ʵڰ Nature Genetics (2), Nature Biotechnology, Nature Plants (6), Nature Communications (1), Genome Research, PNAS (4), Plant Cell (6), Cell Research (2), Molecular Plant (4) ȿ﷢ͨѶͬͨѶ 90 ƪ, ó 11000 Σgoogle scholar 15 ƪѡESI߱ģ2019ѡClarivate AnalyticsΨȫ߱ѧҡ; Ӧ Nature Plants, Trends in Plant Science, Current Opinion in Plant Biology, Molecular Plant, New Phytologist, Journal of  Experimental Botany, Theoretical and Applied Genetics ־׫дƺ; ר 40 , йר 8 , ֵλˮƷ 5 , 32019걻϶Ϊɫȫ41, ˮ114ˮ134ۻƹ 1200 Ķʵ"(޳о)" 2 λͬѧѡһίꡣ

      ʵоʵվhttp://chulab.genetics.ac.cn/
      Ķʵҷȫ ResearchGate-Chengcai Chu
 
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뽫ϣʿоPDF2-3λƼ˵绰룩: ccchu@genetics.ac.cnǽ߽ʸ, ϸ߽ϵ, ʸδͨ, и֪Ƹ³Ч, ʵҶ˲Զţ

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귢Ĵоļ*Corresponding authors
1. Fang J^*, Zhang F^, Wang H, Wang W, Zhao F, Li Z, Sun C, Chen F, Xu F, Chang S, Wu L, Bu Q, Wang P, Xie J, Chen F, Huang X, Zhang Y, Zhu X, Han B, Deng X*, and Chu C* (2019) Ef-cd locus shortens rice maturity duration without yield penalty. Proc. Natl. Acad. Sci. USA 116(37): 18717-18722.
Highlighted in in this issue (2019) Rice maturity time and yield. Proc. Natl. Acad. Sci. USA 116(37): 18149-18151.
Spotlighted by Yang Y and Qian Q (2019) Rice breeding: A long noncoding locus with great potential. Mol. Plant 12(11): 1431-1433.
Featured by Zhang S and Wu C (2019) Long non-coding RNA Ef-cd regulates rice early maturation and stable yield. Chin. Bull. Bot. 54(5): 550-553.

2. Zhang J^, Liu Y-X^, Zhang N^, Hu B^, Jin T^, Xu H, Qin Y, Yan P, Zhang X, Guo X, Hui J, Cao S, Wang X, Wang C, Wang H, Qu B, Fan G, Yuan L, Garrido-Oter R, Chu C*, and Bai Y* (2019) NRT1.1B is associated with root microbiota composition and nitrogen use in field-grown rice. Nat. Biotechnol. 37: 676-684.
Cover story.

Featured by Wang X and Wang E (2019) NRT1.1B connects root microbiota and nitrogen use in rice. Chin. Bull. Bot. 54(3): 285-287.

3. Hu B^*, Jiang Z^, Wang W^, Qiu Y^, Zhang Z, Liu Y, Gao X, Liu L, Qian Y, Huang X, Yu F, Li A, Kang S, Wang Y, Xie J, Cao S, Zhang L, Wang Y, Xie Q, Kopriva S, and Chu C* (2019) Nitrate-NRT1.1B-SPX4 cascade integrates nitrogen and phosphorus signaling networks in plants. Nat. Plants 5: 401C413.
Featured by Carrin C & Paz-Ares J (2019) When nitrate and phosphate sensors meet. Nat. Plants 5: 339C340.
Recommended by F1000Prime twice. Doi: 10.3410/f.735399180.793560575 and Doi: 10.3410/f.735399180.793560581.

4. Wang M^, Li W^, Fang C^, Xu F^, Liu Y^, Wang Z, Yang R, Zhang M, Liu S, Lu S, Lin T, Tang J, Wang Y, Wang H, Lin H, Zhu B, Chen M, Kong F, Liu B, Zeng D, Jackson SC*, Chu C* & Tian Z* (2018) Parallel selection on a dormancy gene during domestication of crops from multiple families. Nat. Genet. 50(10): 1435-1441.

Featured by Rendn-Anaya M and Herrera-Estrella A (2018) The advantage of parallel selection of domestication genes to accelerate crop improvement. Genome Biol. 19(1): 147.
Highlighted by Wei X and Huang X (2018) Identification of a seed dormancy gene in soybean sheds light on crop domestication. Sci. China-Life Sci. 61(11): 1439-1441.

5. Liu C^, Ou S^, Mao B, Tang J, Wang W, Wang H, Cao S, Schlappi MR, Zhao B, Xiao G, Wang X* and Chu C* (2018) Early selection of bZIP73 facilitated adaptation of japonica rice to cold climates. Nat. Commun. 9(1): 3302.

6. Wang W^, Hu B^, Yuan D, Liu Y, Che R, Hu Y, Ou S, Zhang Z, Wang H, Li H, Jiang Z, Zhang Z, Gao X, Qiu Y, Meng X, Liu Y, Bai Y, Liang Y, Wang Y, Zhang L, Li L, Mergen S, Jing H, Li J, and Chu C* (2018) Expression of the nitrate transporter OsNRT1.1A/OsNPF6.3 confers high yield and early maturation in rice. Plant Cell  30(3): 638-651.

Featured by Mach J (2018) The Real Yield Deal? Nitrate Transporter Expression Boosts Yield and Accelerates Maturation. Plant Cell 30(3): 520-521.
Highlighted in Science Daily on February 23, 2018 by Mach J: New approach to improve nitrogen use, enhance yield, and promote flowering in rice.
Recommended by F1000Prime Doi: 10.3410/f.732773314.793543251.

7. Zhang B^, Zhang L^, Li F^, Zhang D, Liu X, Wang H, Xu Z, Chu C*, Zhou Y* (2017) Control of secondary cell wall patterning involves xylan deacetylation by a GDSL esterase. Nat. Plants 3: 17017.

Featured by Scheller HV (2017) Plant cell wall: Never too much acetate. Nat. Plants 3: 17024.

8. Wang H^, Vieira FG^, Crawford JE, Chu C*, and Nielsen R*(2017) Asian wild rice is a hybrid swarm with extensive gene flow and feralization from domesticated rice. Genome Res. 27: 1029-1038.

Cover Story.
Highlighted in Asian Scientist Magazine on May 2, 2017: Apparently, Asian wild rice isnt so wild anymore.

9. Wang H^, Xu X^, Vieira FG, Xiao Y, Li Z, Wang J, Nielsen R*, and Chu C* (2016) The power of inbreeding: NGS based GWAS of rice reveals convergent evolution during rice domestication. Mol. Plant 9(7):975-985

Cover Story.

Featured by Huang X (2016) From genetic mapping to molecular breeding: Genomics have paved the highway. Mol. Plant 9(7): 959-960.

10. Gao S, Fang J, Xu F, Wang W, Chu C* (2016) Rice HOX12 regulates panicle exsertion by directly modulating the expression of ELONGATED UPPERMOST INTERNODE1. Plant Cell 28(3): 680-695.

Highlighted in Science Daily on April 1, 2016 by Jennifer Lockhart: Feeding the world: Uncovering a key regulator of flower head development in rice.

11. Che R^, Tong H^, Shi B, Liu Y, Fang S, Liu D, Xiao Y, Hu B, Liu L, Wang H, Zhao M*, Chu C* (2016) Control of grain size and rice yield by GL2-mediated brassinosteroid responses. Nat. Plants 2: 15195.

Featured by Tsukaya H (2016) Yield increase: GRFs provide the key. Nat. Plants 2: 15210.

12. Liu L^, Tong H^, Xiao Y, Che R, Xu F, Hu B, Liang C, Chu J, Li J*, Chu C* (2015) Activation of Big Grain1 significantly improves grain size by regulating auxin transport in rice. Proc. Natl. Acad. Sci. USA 112(35): 11102-11107.

13. Hu B, Wang W, Ou S, Tang J, Li H, Che R, Zhang Z, Chai X, Wang H, Wang Y, Liang C, Liu L, Piao Z, Deng Q, Deng K, Xu C, Liang Y, Zhang L, Li L, Chu C* (2015) Variation in NRT1.1B contributes to nitrate-use divergence between rice subspecies. Nat. Genet. 47(7): 834-838.

Featured by Chao DY & Lin HX (2015) Nitrogen-use efficiency: Transport solution in rice variations. Nat. Plants 1: 15096.
Highlighted by Chen ZC & Ma JF (2015) Improving nitrogen use efficiency in rice through enhancing root nitrate uptake mediated by a nitrate transporter, NRT1.1B. J. Genet. Genomics. 42(9): 463-465.
Highlighted by Duan D & Zhang H (2015) A single SNP in NRT1.1B has a major impact on nitrogen use efficiency in rice. Sci. China Life Sci. 58(8): 827-828.
Recommended by F1000 Prime. Doi: 10.3410/f.725540326.793508312.



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