沈世華

^[1] 

1996年至1998年在日本筑波大學基因研究中心（Gene Research Center, University of Tsukuba, Japan.）從事博士後研究，1999年至2011年在日本國立農業科學研究所（National Institute of Agrobiological Sciences, Japan）進行訪問研究。兼任中科院唐山高新技術研發與轉化中心工程植物事業部部長，中國植物生理學會植物生物質與生物能源專業委員會委員。2002年回國以來，申報專利10項，發表論文60餘篇，SCI收錄刊物論文50餘篇。其中，第一作者和通訊作者論文47篇。已培養碩士和博士20名；正在指導博士後2名、博士生和碩士生10名。

以重要資源植物為研究對象，採用植物生理學、分子生物學和蛋白質組學等研究手段，探索植物逆境適應機制，揭示植物感應、傳遞、應答脅迫環境信號的途徑，尋找網絡調控響應過程中的重要關鍵基因，通過現代先進生物學技術進行分子改良，提高植物抗逆性和防禦能力，為生態修復、環境治理、綠色高效農業提供理論依據和技術保障。 ^[1] 

1. 植物逆境蛋白質組學研究，如水稻響應乾旱、低温、鹽鹼、機械傷害，麻瘋樹應答低温，菊芋響應乾旱、鹽鹼蛋，小泥碗癬脱水、低温脅迫等蛋白質組學解析。 ^[1] 

2. 重要關鍵抗逆基因分離及其功能研究，從資源植物麻瘋樹、構樹等中分離克隆到20多個與逆境應答和生長髮育相關的重要關鍵基因，如調控耐乾旱、低温、鹽鹼等逆境基因表達的轉錄因子基因DREB、DOF、MYB、NAC等，並對水稻、麻瘋樹、構樹等進行轉基因研究。

3. 構樹、麻瘋樹等資源植物產業化關鍵技術研發與示範推廣等，其中，雜交構樹已在全國20多個省市區邊際土地上示範種植，在乾旱、鹽鹼、沙荒地、礦山生態修復等方面具有廣闊的應用前景。 ^[1] 

[1] 雙流冬草莓脱毒復壯及新品種示範推廣, 院地合作項目（批准號：XBCD-2011-009）（2011.01-2013.12）資助金額22萬；主持人 ^[1] 

[2] 耐鹽植物篩選繁育與適應性種植濱海鹽鹼地綠化技術集成與示範，院重點項目（編號：KZCX2-YW-359）資助金額120萬，共同支持 ^[1] 

[3] 麻瘋樹耐寒轉錄因子基因克隆及其功能研究，國家基金委面上項目（批准號：31270653）（2013.01~2016.12），主持人

[4] “生物固氮作用的分子機理研究”，科技部“973”計劃（批准號：2010CB1265）（2010.01~2014.12），“水稻與根瘤菌互作用機制”子課題，資助金額200萬元；主持人：沈世華。

[5] “水稻抗寒性狀形成重要關鍵基因克隆及其功能驗證”，科技部其它項目（批准號：2009ZX08009-074B）（2009.06~2011.12），資助金額120萬元；主持人：沈世華。

[6] “麻瘋樹油脂合成機制與分子改良研究” 國家自然基金重點項目（批准號：U0733005）（2008.01~2011.12），“麻瘋樹種子油脂合成蛋白質組學解析”課題，資助金額31萬元；主持人：沈世華。

[7] “濱海耐鹽構樹選育與種植試驗示範”，中科院支持天津建設科技行動計劃項目（批准號：TJXZ2-YW-25）（2009.01~2010.12），資助金額50萬元；主持人：沈世華。

[8] “麻瘋樹、木薯重要性狀形成機制及新種質創”，中科院知識創新工程重要方向項目（批准號：KSCX2-YW-G-035）（2008.09~2010.12），“麻瘋樹抗性機制”課題，資助金額50萬元；主持人：沈世華。

[9] “水稻灌漿期抗低温性狀形成的代謝途徑解析”，科技部“863”項目（批准號：2007AA10Z109）（2007.10~2010.08），資助金額78萬元；主持人：沈世華。 ^[1] 

[10] “枯草芽孢桿菌KB-1111以及新型植物生防與促生劑生產技術的引進”，農業部“948”項目（批准號：2004-Z26）（2004.10~2007.12），資助金額60萬元；主持人：沈世華。 ^[1] 

[11] “水稻應答赤黴素的蛋白質組學研究”，國家自然基金面上項目（批准號：30470168）（2005.01~2007.12），資助金額23萬元；主持人：沈世華。 ^[1] 

[12] “高效生物固氮作用機理及其在農業中的應用”，科技部“973”項目（批准號：G2001CB108902）（2002.01~2006.08），“我國特有苜蓿根瘤菌和其宿主植物苜蓿的共生固氮功能基因組”課題，資助金額40萬元；主持人：沈世華。 ^[1] 

[13] “主要農作物DREB基因的克隆及轉化”，科技部“863”項目（批准號：2002AA224091）（2002.01~2005.12），“DREB基因克隆及其功能研究”子課題，資助金額25萬元；主持人：沈世華。 ^[1] 

[1] 沈世華等譯，2013。植物蛋白質組學-實驗指南。北京：科學出版社。

[2] 沈世華、鄧華平編著，2016。構樹栽培及飼用技術。北京：中國農業科技技術出版社。 ^[2] 

[1] 沈世華、孫靜文、劉 傑等。一種植物DREB轉錄因子及其編碼基因與應用。中國： ZL200510082838.0。2007-01-24。

[2] 沈世華、唐明娟、劉 傑。一個麻瘋樹冷誘導轉錄因子及其編碼基因與應用。中國：ZL200610000259.1。2007-12-26。

[3] 沈世華、劉玉君、苟 平。一種麻瘋樹種子胚乳蛋白質提取方法。中國：CN101171952。2008-05-07。

[4] 沈世華、劉玉君、苟 平。麻瘋樹種子胚乳蛋白質高分辨率的分離方法。中國：CN101173904A。2008-05-07。

[5] 沈世華、劉 傑、劉藴等。一種植物抗逆相關蛋白及其編碼基因與應用。中國：CN101250220A。2008-08-27。

[6] 沈世華、劉玉君、苟平。一種麻瘋樹種子油體蛋白質分離方法。中國：CN101343312。2009-01-14。

[7] 李國學、路鵬、沈世華等。一種利用秸稈水解物發酵生產乙醇的微生物菌劑及其應用。中國：CN101381680。2009-03-11。

[8] 沈世華、劉玉君、苟 平。一種麻瘋樹種子油體蛋白質提取方法。中國：CN101418034。2009-04-29。

[9] 唐明娟、沈世華、劉 傑。一個麻瘋樹鹽誘導基因與應用。中國：ZL200610000100.X。2010-02-03。

[10] 劉公社、沈世華、彭獻軍等。一種羊草乾旱誘導轉錄因子及其編碼基因與應用。中國：CN101684149。2010-03-31。

[11] 沈世華、彭獻軍、王金山。一種利用原土種植進行濱海鹽鹼地生態綠化的方法。中國：ZL 201310750185.3。2017-01-25。

[12] 沈世華、彭獻軍。一種雜交構樹幹旱脅迫相關的轉錄因子及其編碼基因與應用。中國：ZL 201510756995.9。2018-09-07。

[13] 沈世華、彭獻軍。一種雜交構樹鹽脅迫相關的轉錄因子及其編碼基因與應用。中國：ZL 201510756134.0。2018-09-10。

[14] 沈世華、王小曼、邳植、彭獻軍。一種構樹葉片蛋白質分離方法。中國：ZL 201610169439.6。2019-03-08。

[15] 沈世華、彭獻軍。抗逆相關蛋白在調控植物抗逆性中的應用。中國：ZL 201510757177.0。2019-11-20。

[16] 沈世華、彭獻軍、王琪。蛋白質在調控植物抗逆性中的應用。中國：ZL 201510757191.0。2019-12-25。

[17] 沈世華、彭獻軍、趙美玲等。一種雜交構樹轉錄因子BpSEM及其編碼基因與應用。中國：ZL 201510757495.7。2020-07-24。 ^[1-2] 

Hu YM, Peng XJ, Wang FF, Chen PL, Zhao ML, Shen SH*. 2021. Natural population re-sequencing detects the genetic basis of local adaptation to low temperature in a woody plant. Plant Molecular Biology, 105: 585-599. Zhang BH，Chen Naizhi，Peng Xianjun, Shen Shihua*. 2021. Identification of the PP2C gene family in paper mulberry (Broussonetia papyrifera) and its roles in the regulation mechanism of the response to cold stress. Biotechnology letters, DOI: 10.1007/s10529-021-03110-4.

Zhao ML, Peng XJ, Chen NZ*, Shen SH*. 2020. Genome-wide identification of the TCP gene family in Broussonetia papyrifera and functional analysis of BpTCP8, 14 and 19 in shoot branching. Plants, 9: 1301.

Chen PL, Hu YM, Tang F, Zhao ML, Peng XJ*, Shen SH*. 2020. Cooperation between Broussonetia papyrifera and symbiotic fungal community to improve host local adaptability. Applied Microbiology and Biotechnology, 86: e00464-20.

Chen PL, Zhao ML, Tang F, Hu YM, Peng XJ*, Shen SH*. 2020. The effect of plant compartments on the Broussonetia papyrifera-associated fungal and bacterial communities. Applied Microbiology and Biotechnology, 104: 3627-3641.

沈世華、彭獻軍、陳乃芝。2020。雜交構樹產業扶貧實踐與成效。中國科學院院刊，第 35 卷（增刊 2）：57-65。

Chen PL, Zhao ML, Tang F, Hu YM, Peng XJ*, Shen SH*. 2019. The effect of environment on the microbiome associated with the roots of a native woody plant under different climate types in China. Applied Microbiology and Biotechnology, 103: 3899-3913.

Peng XJ, Liu H, Chen PL, Tang F, Hu YM, Wang FF, Pi Z, Zhao ML, Chen NZ, Chen H, Zhang XK, Yan XQ, Liu M, Fu XJ, Zhao GF, Yao P, Wang LL, Dai H, Li XM, Xiong W, Xu WC, Zheng HK, Yu HY*, Shen SH*. 2019. A chromosome-scale genome assembly of paper mulberry (Broussonetia papyrifera) and genetic basis of its forage and papermaking usage. Molecular Plant, 12: 661-677.

Liu H, Wang FF, Peng XJ, Huang JH, Shen SH*. 2019. Global phosphoproteomic analysis reveals the defense and response mechanisms of Jatropha curcas seedling under chilling stress. International Journal of Molecular Sciences, 20: 208.

Wu QQ, Peng XJ, Yang MF, Zhang WP, Frank BD, Norman U, Jing YX*, Shen SH*. 2018. Rhizobia promote the growth of rice shoots by targeting cell signaling, division and expansion. Plant Molecular Biology, 97: 507-523.

沈世華*、彭獻軍、段瑞、熊偉。2018。科技引領創新 產業助力扶貧——雜交構樹扶貧工程在山東菏澤的成效與啓示。中國科學院院刊，33：979-986。

彭獻軍、沈世華*。2018。構樹：一種新型木本模式植物。植物學報，53：372-381。

邳植、沈世華*。2018。構樹作為新興的蛋白飼料原料的研究。飼料工業，39：23-28。

胡豔敏、彭獻軍、沈世華*。2018。從古代科技史角度審視構樹的多重文化內涵及應用價值。北京林業大學學報，17：38-43。

Tang F, Chen NZ, Zhao ML, Wang YC, He RP, Peng XJ*, Shen SH*. 2017. Identification and functional divergence analysis of WOX gene family in paper mulberry. Int. J. Mol.Sci., 18: 1782.

Pi Z, Zhao ML, Peng XJ, Shen SH*. 2017. Phosphoproteomic analysis of paper mulberry reveals phosphorylation functions in chilling tolerance. J. Proteome Res., 16:1944-1961.

Peng XJ, Wang Q, Liu H, Shen SH*. 2017. Phylogenetic and functional analysis of the basic transcription factor gene BTF3 from Jatropha curcas. Plant Growth Regul., 82: 247-257.

Wang Yangyang, Ji Kuixian, Shen Shihua, Chen Hui*. 2016. Probing molecular events associated with early development of thylakoid membranes by comparative proteomics and low temperature fluorescence. Journal of Proteomics, 143: 401-415.

Peng Xianjun, Liu Hui, Wan Dan, Shen Shihua*. 2016. Genome-wide identification of the Jatropha curcas MYB family and functional analysis of the abiotic stress responsive gene JcMYB2. BMC Genomics, 17: 251.

彭獻軍, 王金山, 沈世華*. 2016. 運用雜交構樹進行尾礦生態修復和礦區綠化. 天津農業科學, 22(12): 111-119

Peng Xianjun, Wu Qingqing, Teng Linhong, Tang Feng, Pi Zhi, Shen Shihua*. 2015. Transcriptional regulation of the paper mulberry under cold stress as revealed by a comprehensive analysis of transcription factors. BMC Plant Biology, 15: 108.

Peng Xianjun, Teng Linhong, Yan Xueqing, Zhao Meiling, Shen Shihua*. 2015. The cold responsive mechanism of the paper mulberry: Decreased photosynthesis capacity and increased starch accumulation. BMC Genomics, 16: 898.

Liu Hui, Wang Cuiping, Chen Fan, Shen Shihua*. 2015. Proteomic analysis of oil bodies in mature Jatropha curcas seeds with different lipid content. Journal of Proteomics, 113: 403-414.

Peng Xianjun, Wang Yucheng, He Ruiping, Zhao Meiling, ShenShihua*. 2014. Global transcriptomics identification and analysis of transcriptional factors in different tissues of the paper mulberry. BMC Plant Biology, 14 (1): 194.

Peng Xianjun, Teng Linhong, Wang Xiaoman, Wang Yucheng, Shen Shihua*.2014. De novo assembly of expressed transcripts and global transcriptomics analysis of seedling in paper mulberry (Broussonetia kazinoki x Broussonetia papyifera). PLoS ONE, 9(5): e97487.

Sun Jingwen, Peng Xianjun, Fan Weihong, Tang Mingjuan, Liu Jie, Shen Shihua*. 2014. Functional analysis of BpDREB2 gene involved in salt and drought response from a woody plant Broussonetia papyrifera. Gene, 535: 140-149.

Liu H, Wang CP, Liu GS*, Shen SH*. 2013. Proteomic analysis of the seed development in Jatrophacurcas: from carbon flux to the lipid accumulation. Journal of Proteomics, 91: 23-40.

Wang XQ, Han F, Yang MF, Yang PF, Shen SH*. 2013. Exploring the response of rice (Oryza sativa) leaf to gibberellins: a proteomicstrategy. Rice, 6: 17.

Zhang MD*, Shen SH. 2013. Effective protein extraction protocol forproteomics studies of Jerusalem artichokeleaves. Journal of Separation Science, 36: 2203-2209.

Ji KX, Wang YY, Sun WN, Lou QJ, Mei HW, Shen SH, Chen H^*. 2012. Drought-responsive mechanisms in rice genotypes with contrasting drought tolerance during reproductive stage. Journal of Plant Physiology, 169: 336-344

Chen Q, Zhang MD, Shen SH*. 2011. Effect of salt on malondialdehyde and antioxidant enzymes in seedling roots of Jerusalem artichoke (Helianthus tuberosus L.). Acta Physiologiae Plantarum, 33: 273-278.

Zhang MD, Chen Q, Shen SH*. 2011. Physiological responses of two Jerusalem artichoke cultivars to drought stress induced by polyethylene glycol. Acta Physiologiae Plantarum, 33: 313-318.

Fan WH, Cui WT, Li XF, Chen SY, Liu GS*, Shen SH*. 2011. Proteomics analysis of rice seedling responses to ovine saliva. Journal of Plant Physiology, 68: 500-509.

Peng XJ, Ma XY, Fan WH, Su M, Cheng LQ, Iftekhar A, Lee BH, Qi DM, Shen SH*, Liu GS*. 2011. Improved drought and salt tolerance of Arabidopsis thaliana by transgenic expression of a novel DREB gene from Leymus chinensis. Plant Cell Reports, 30: 1493-1502.

He DL, Han C, Yao JL, Shen SH and Yang PF*. 2011. Constructing the metabolic and regulatory pathways in germinating rice seeds through proteomic approach. Proteomics, 11: 2693–2713.

Chen Q, Zhang MD, Shen SH*. 2011. Comparison of protein extraction methods suitable for proteomics analysis in seedling roots of Jerusalem artichoke under salt (NaCl) stress. African Journal of Biotechnology, 10: 7650-7657.

Yang J, Yang MF, Zhang WP, Chen F, Shen SH*. 2011. A putative flowering-time-related Dof transcription factor gene, JcDof3, is controlled by the circadian clock in Jatropha curcas. Plant Science, 181: 667-674.

Liu H, Yang ZL, Yang MF, Shen SH*. 2011. The differential proteome of endosperm and embryo from mature seed of Jatropha curcas. Plant Science, 181: 660-666.

Tang MJ, Liu XF, Deng HP*, Shen SH*. 2011. Over-expression of JcDREB, a putative AP2/EREBP domain-containing transcription factor gene in woody biodiesel plant Jatropha curcas, enhances salt and freezing tolerance in transgenic Arabidopsis thalia. Plant Science, 181: 623-631.

Li XJ, Yang MF, Zhu Y, Liang Y, Shen SH*. 2011. Proteomic analysis of salt stress responses in rice shoot. Journal of Plant Biology, 54: 384-395

Liu Y, Chen H, Zhuang DF, Jiang D, Liu J, Wu GJ, Yang MF*, Shen SH*. 2010. Characterization of a DRE-binding transcription factor from asparagus (Asparagus officinalis L.), and its overexpression in Arabidopsis resulting in salt- and drought-resistant transgenic plants. International Journal of Plant Sciences, 171: 12-23.

Ji KX, Chi F, Yang MF, Shen SH*, Jing YX*, Cheng HP and Dazzo FB. 2010. Movement of Rhizobia inside tobacco and lifestyle alternation from endophytes to free-living Rhizobia on leaves. Journal of Microbiology and Biotechnology, 20: 238-244.

Li XJ, Yang MF, Chen H, Qu LQ, Chen F, Shen SH*. 2010. Abscisic acid pretreatment enhances salt tolerance of rice seedlings: Proteomic evidence. BBA-Proteins and Proteomics, 1804: 929-940.

Chi F, Yang PF, Han F, Jing YX*, Shen SH*. 2010. Proteomic analysis of rice seedlings infected by Sinorhizobium meliloti 1021. Proteomics, 10: 1861-1874.

Yang J, Yang MF, Wang D, Chen F* and Shen SH*. 2010. JcDof1, a Dof transcription factor gene, is associated with the light-mediated circadian clock in Jatropha curcas. Physiologia Plantarum, 139: 324-334.

Pan XL*, Jiang QY, Pan QY, Wen XF, Shi YD, Wang YJ, Pan TY, Xie SG, Zhang GY, Wu SJ, Chai YF, Zhang C, Wu ZX and Shen SH*. 2009. Proteomic analysis of ‘hybrid necrosis’ in wheat (Triticum aestivum) leaves. Functional Plant Biology, 36: 251–259.

Zhang CX, Zhao X, Han F, Yang MF*, Jing YX, Chida T, Shen SH*. 2009. Comparative proteome analysis of two antagonist Bacillus subtilis strains. Journal of Microbiology and Biotechnology, 19: 351-358.

Yang MF, Liu YJ, Liu Y, Chen H*, Chen F, Shen SH*. 2009. Proteomic analysis of oil mobilization in seed germination and postgermination development of Jatropha curcas. Journal of Proteome Research, 8: 1441-1451.

Wang XQ, Yang PF, Liu Z, Liu WH, Hu Y, Chen H, Kuang TY, Pei ZM, Shen SH, He YK*. 2009. Exploring the mechanism of Physcomitrella patens desiccation tolerance through a proteomic strategy. Plant Physiology, 149: 1739-1750.

Liu H, Liu YJ, Yang MF*, Shen SH*. 2009. A Comparative analysis of embryo and endosperm proteome from seeds of Jatropha curcas. Journal of Integrative Plant Biology, 51: 850-857.

[31] Wang XQ, Yang PF, Liu Z, Xu Y, Kuang TY, Shen SH*, He YK*. 2009. Proteomic analysis of the cold stress response in the moss, Physcomitrella patens. Proteomics, 9: 4529-4538.

Han F, Chen H, Li XJ, Yang MF*, Liu Ge*, Shen SH*. 2009. A comparative proteomic analysis of rice seedlings under various high-temperature stresses. BBA-Proteins and Proteomics, 1794: 1625-1634.

Zhang CX, Zhao X, Jing YX, Chida T, Chen H, Shen SH*. 2008. Phenotypic and biological properties of two antagonist Bacillus subtilis strains. World Journal of Microbiology Biotechnology, 24: 2179-2181.

Wang XQ, Yang PF, Gao Q, Liu XL, Kuang TY, Shen SH*, He YK*. 2008. Proteomic analysis of the response to high-salinity stress in Physcomitrella patens, 228: 167-177.

Jiang QY, Chen H, Pan XL*, Pan QY, Shi YH, Li XR, Zhang GY, Wang YJ, Xie SG, Shen SH*. 2008. Proteomic analysis of wheat (T. aestivum L) hybrid necrosis. Plant Science, 175: 394-403

Lu P, Chen LJ, Li GX, Shen SH, Wang LL, Jiang QY*, Zhang JF. 2007. Influence of furfural concentration on growth and ethanol yield of Saccharomyces kluyveri. Journal of Environmental Sciences.19: 1528-1532.

Yang PF, Chen H, Liang Y, Shen SH*. 2007. Proteomic analysis of de-etiolated rice seedlings upon exposure to light. Proteomics, 7: 2459-2468.

Yang PF, Li XJ, Wang XQ, Chen H, Chen F, Shen SH*. 2007. Proteomic analysis of rice (Oryza sativa) seeds during germination. Proteomics, 7: 3358-3368.

Liang Y, Chen H, Tang MJ and Shen SH*. 2007. Proteome analysis of an ectomycorrhizal fungus Boletus edulis under salt shock. Mycological Research, 111: 939-946.

Liang Y, Chen H, Tang MJ, Yang PF, Shen SH*. 2007. Responses of Jatropha curcas seedlings to cold stress: photosynthesis related proteins and chlorophyll fluorescence characteristics. Physiologia Plantarum, 131: 508-517.

Tang MJ, Sun JW, Liu Y, Chen F, Shen SH*. 2007. Isolation and functional characterization of the JcERF gene, a putative AP2/EREBP domain-containing transcription factor, in woody oil plant Jatropha curcas. Plant Molecular Biology, 63: 419-428.

Han WW, Shen SH*, Tai PD. 2007. Proteome analysis of inhibitory effect of gadolinium on Sinorhizobium fredii. Journal of Rare Earths, 25: 106-110.

Yang PF, Shen SH*, Kuang TY. 2006. A comparative analysis of the endosperm proteins separated by two-dimensional electrophoresis for two cultivars of hybrid rice (Oryza sativa L.). Journal of Integrative Plant Biology, 48: 1028-1033.

Zuo P, Chen H*, Wu YS, Shen SH, Wang P, Ai XC, Zhang JP*, Li LB, Kuang TY. 2006. Effects of different aggregation forms of LHC II from Bryopsis corticulans on the excited state properties of Chl a. Chinese Science Bulletin, 51: 1444-1451.

Zhou XJ, Liang Y, Chen H, Shen SH*, Jing YX*. 2006. Effects of rhizobia inoculation and nitrogen fertilization on soybean photosynthetic physiology. Photosynthetica, 44: 530-535.

Chen YM, Chen T, Shen SH, Zheng MZ, Guo YM, Lin JX*, Baluska F, Samaj J. 2006. Differential display proteomic analysis of Picea meyeri pollen germination and pollen tube growth after actin depolymerization by latrunculin B. The Plant Journal, 47: 174-195.

Yang PF, Liang Y, Shen SH*, Kuang TY. 2006. Proteome analysis of rice uppermost internodes at the milky stage. Proteomics, 6: 3330-3338.

Yang PF, Li XJ, Liang Y, Jing YX, Shen SH*, Kuang TY. 2006. Proteomic analysis of the response of Liangyoupeijiu (A super high-yield hybrid rice) seedlings to cold stress. Journal of Integrative Plant Biology, 48: 945-951.

Lü SY, Jing YX, Shen SH, Zhao HY, Ma LQ, Zhou XJ, Ren Q，Li YF*. 2005. Antiporter Gene from Hordum brevisubulatum (Trin.) Link and Its Overexpression in Transgenic Tobaccos. Journal of Integrative Plant Biology, 47: 343-349.

Chi F, Shen SH, Cheng HP, Jing YX*, Yanni YG. and Dazzo FB. 2005. Ascending migration of endophytic Rhizobia from roots to leaves inside rice plants and assessment of their benefits to the growth physiology of rice. Applied and Environmental Microbiology, 71: 7271-7278.

Chen H*, Shen SH, Liang Y, Leng J, Tang MJ, Gong YD. 2005. Evidence for dissociation of chlorophyll b from the main light-harvesting complex in the oligomerization state isolated from marine alga, Bryopsis corticulans. Biochimica et Biophysica Acta- Bioenergetics, 1707: 170-179.

Tang MJ，Lü SY, Jing YX, Zhou XJ, Sun JW, Shen SH*. 2005. Isolation and identification of a cold-inducible gene encoding a putative DRE-binding transcription factor from Festuca arundinacea. Plant Physiology and Biochemistry, 43: 233-239.

Qi SW, Yang PF, Jing YX, Shen SH* & Yang SS*. 2004. A proteomic analysis of bacterial strain Sinorhizobium fredii RT19 subjected to salt shock. Chinese Science Bulletin, 49: 1828-1833.

Chen H*, Shen SH, He JF, Leng J, Li LB & Kuang TY. 2004. A light-harvesting siphonaxanthin- chlorophyll a/b-protein complex of marine green alga, Bryopsis corticulans. Chinese Science Bulletin, 49: 1936-1941.

Yang GX, Jan A, Shen SH, Yazaki J, Ishikawa M, Shimatani Z, Kishimoto N, Kikuchi S, Matsumoto H and Komatsu S*. 2004. Microarray analysis of brassinosteroids- and gibberellin-regulated gene expression in rice seedlings. Molecular Genetics and Genomics, 271:468-478.

Shen SH and Jing YX*. 2003. Present status and development on biological nitrogen fixation research in China. Chinese Science Bulletin, 48: 954-960.

Yang GX, Shen SH, Yang SH, Komatsu S*. 2003. OsCDPK13, a calcium-dependent protein kinase gene from rice, is induced in response to cold and gibberellin. Plant Physiology and Biochemistry, 41: 369-374.

Shen SH*, Jing YX, Kuang TY. 2003. Proteomics approach to identify wound-response related proteins from rice leaf sheath. Proteomics, 3: 527-535.

Shen SH, Sharma A, Komatsu S*. 2003. Characterization of Proteins Responsive to Gibberellin in the Leaf-Sheath of Rice (Oryza sativa L.) Seedling Using Proteome Analysis. Biological Pharmaceutical Bulletin, 26: 129-136.

Komatsu S*, Konishi H, Shen SH, Yang GX. 2003. Rice proteomics: a step toward functional analysis of the rice genome. Molecular Cellular & Proteomics, 2: 2-10.

Shen SH, Matsubae M, Takao T, Komatsu S*. 2002. A proteomics analysis of leaf sheath from rice. Journal of Biochemistry, 132: 613-620. ^[2] 

1. 2008年，“雜交構樹工廠化快繁育苗技術”獲大連市科技進步三等獎（獲獎證書號：2008J-3-34-01）。 ^[1] 

[1]1996年，“稀有瀕危植物的遷地保護”獲中國科學院科技進步三等獎（第4完成人）。

[2]2008年，“雜交構樹工廠化快繁育苗技術”獲大連市科技進步三等獎（第1完成人）。

[3]2017年，“邊坡與廢棄地生態修復綜合技術創新及應用”獲廣東省科學技術二等獎（第7完成人）。

[4]2019年，“邊坡與廢棄地生態修復關鍵技術及應用”獲中華人民共和國農業農村部2018-2019年度神農中華農業科技獎科學研究類成果三等獎（第7完成人）。

[5]2019年，獲河南省人民政府.中國科學院“2019年度省院合作科技成果轉化先進個人”。

[6]2020年，獲中國科學院“2019年中國科學院年度團隊提名團隊”。 ^[2]