程備久
程備久
程備久,男,漢族,中共黨員,安徽農業大學教授,中國生物學家,博士生導師。現任安徽農業大學黨委副書記,校長;安徽省政協農業和農村委員會副主任。
兼任教育部農林院校理科基礎教學指導委員會副主任,農業部玉米專家組副組長,中國農業物理學會副理事長,作物抗逆育種與減災國家地方聯合工程實驗室主任。為我國生物學發展做出了很大貢獻。安徽省“有突出貢獻的中青年專家”,享受國務院政府特殊津貼。徠
程備久
1988年獲安徽農學院作物遺傳育種專業碩士學位。
1993年獲中國科學院等離子體物理研究所博士學位。
1999.01—2000.03,在澳大利亞阿德雷得大學國家分子生物學研究中心做訪問學者。
1994年起,先後任安徽農業大學生物工程系副主任、主任。
2000—2004任安徽農業大學教務處處長。
2004.06起任安徽農業大學副校長,安徽省八屆政協委員,九屆政協常委。
2014年8月21日,任安徽農業大學黨委副書記、校長。
現兼任教育部農林院校理科基礎教學指導委員會副主任,應用生物科學專業國家教學團隊帶頭人,農業部玉米專家組副組長,作物抗逆育種與減災國家地方聯合工程實驗室主任,安徽省作物生物學重點實驗室和安徽省玉米工程技術研究中心主任, 安徽省玉米現代產業技術體系首席專家,安徽省玉米遺傳改良以及產業化技術研究“115”創新團隊帶頭人,生物物理學碩士點負責人,中國農業物理學會副理事長,安徽省種子協會副理事長,安徽省遺傳學會、安徽省生物工程學會常務理事,《激光生物學報》副主編,《玉米科學》,《安徽農業科學》等核心期刊編委。安徽省八屆政協委員,九屆、十二屆政協常委。
曾赴美國、加拿大、澳大利亞阿德萊得大學國家分子生物學研究中心訪問及合作研究。長期從事作物生物技術、生物物理學教學和科研工作,先後主持了國家863、國家轉基因專項、國家自然基金項目7項、國家和省部級攻關項目20多項,在Nature communications、Giga science等國內外刊物上發表論文100多篇,其中SCI論文50餘篇。主編國家面向21世紀教材《現代生物技術概論》,《生物質能學》及專著等共3部。安徽省“作物遺傳育種學”和“生物物理學”重點學科學術帶頭人, 安徽省“有突出貢獻的中青年專家”,享受國務院政府津貼。孺子牛獎獲得者。
2018年12月27日,安徽省政協十二屆四次常委會議通過,任安徽省政協農業和農村委員會副主任。
1. 講授過遺傳學、生物技術概論、生物物理、生物信息學、基因工程等本科生和研究生課程
2. 堅持“大別山道路”辦學特色,為新農村建設培養高素質人才, 第二完成人,安徽省教學成果特
等獎,2009.11
3. 實施教學質量工程,努力培養高素質人才, 第一完成人,安徽省教學成果一等獎, 2004.12
4. 科學定位、適時調整,為安徽經濟社會發展服務, 第二完成人,安徽省教學成果二等獎, 2004.12
5.《現代生物技術概論》 主編, 中國農業出版社, 2003.9
6.《生物質能學》 主編, 中國化學工業出版社, 2008.2
1. 沿淮低洼地作物防災減災決策與生產關鍵技術研究,國家科技支撐計劃
2. 高澱粉和高直鏈澱粉轉基因玉米新品種培育,國家轉基因重大專項
3. 玉米高直鏈澱粉基因工程改良與利用研究,國家轉基因植物研究和產業化專項基金
4. 玉米抗病毒RNA干涉調控技術研究, 國家“863”項目
5. 玉米對生性狀分子標記輔助育種技術研究,國家“863”項目
5. 離子束輔助脈衝電泳介導的玉米轉基因機制及應用研究, 國家自然科學基金
6. 玉米額外隨體的遺傳及其與對生性狀關係的研究, 國家自然科學基金
7. 單粒子定位擾動對玉米花粉細胞骨架及Ca++信號傳導的影響, 國家自然科學基金
8. 優質特用玉米離子束生物技術育種研究,國家“十五”攻關項目
9. 優質高產特用玉米新品種皖玉14、皖玉15中試與示範,科技部成果轉化基金
10. 優質高產玉米新品種的選育及產業化,安徽省“十二五”重大科技專項
11. 優質特用玉米轉基因分子育種的研究與開發,安徽省“十五”攻關
12. 生物質能源與材料專用玉米生物技術育種,省2006年科技攻關
13.作物優質、高產、抗病性狀改良關鍵基因利用研究,國家研究與開發專項
14.江淮分水嶺地區農業乾旱和高溫熱害防控技術研究與集成示範,科技部“十二五”農村領域科技計劃項目
15.玉米全基因組NBS-LRR類抗病基因人工選擇下的分子進化機制研究,國家自然科學基金
16.離子注入加速棉花陸海雜種遺傳穩定機制的研究,國家自然科學基金
17.離子注入法導入棉花外源DNA的研究,國家自然科學基金
18.離子束注入棉花的誘變效應研究,國家自然科學基金
19.玉米高直鏈澱粉基因分子標記育種技術研究,安徽省人才基金
20.玉米品質性狀關鍵基因的克隆和功能鑒定,國家973計劃
21.國家玉米育種創新基地建設,農業部基地建設項目
22. 江淮中部糧食多元化兩熟區周年光熱資源高效利用與優化施肥節本豐產增效關鍵技術研究與模式構建,國家重點研發計劃(SQ2017YFNC050008)
23. 玉米株高性狀發育的遺傳調控網路解析, 國家自然科學基金重大計劃項目(91435110 )
重點研究方向為逆境生物學及玉米生物信息與分子育種, 主要以玉米等作物為材料,研究低能離子束、旱澇、病蟲等逆境脅迫生物效應及分子機制, 開展玉米全基因組基因家簇生物信息學及表達模式分析, 發掘功能基因,並致力於玉米的分子標記和轉基因育種,培育高產、優質、高抗、高效新品種。具體研究內容包括:
1.逆境及發育生物學
長期致力於低能離子束、激光、旱澇、高溫等非生物因子和病蟲害生物脅迫玉米等作物和微生物效應和機制研究,率先解析了低能離子束和激光脅迫棉花、玉米和微生物等基因組DNA變異的特點,發現了低能離子束脅迫誘導玉米變異的DNA及組蛋白甲基化的表觀遺傳新機制,研究了玉米對生突變體等植物葉序發育的激素代謝與基因表達差異,發現了細胞分裂素和生長素比值調控葉序形成的新證據; 分析了抗病基因對病原微生物的脅迫分子響應, 建立了雙鏈RNA體外抑制玉米矮花葉病毒脅迫的新技術。
2.作物生物信息與分子育種
開展玉米全基因組基因家族生物信息與進化研究,分析了玉米NBS基因、WRKY基因、HSFs基因等120多個基因家族一萬餘個基因的特徵、分類、染色體定位和表達模式,以及與近緣物種高粱、水稻等比較基因組學和進化,發現了玉米基因家族的進化特點。先後從玉米、水稻克隆了三十多個有重要理論和應用潛力的基因。率先在國內建立了玉米原位轉化、低能離子束轉基因新技術和基因編輯技術研究,提出了低能離子束介導的棉花轉基因技術,選育了一批新的棉花基因型材料和品系。開展了玉米、水稻澱粉、抗病、木質素和纖維素等代謝調控的轉基因研究,獲得高直鏈澱粉、低木質素和抗病毒等重要的玉米、水稻轉基因材料。利用低能離子束和EMS誘變、組學關聯分析和分子標記輔助選擇創建了一批突變體和高澱粉、高直鏈澱粉和甜糯及抗逆玉米新種質,選育出抗逆、優質、高產玉米新品種安隆4號、安農8號、安農9號、安農甜糯1號、安農591、安農102、安農105等新品種10個。
比較系統地從細胞、生化、分子和群體水平研究了低能離子注入棉花種子、花粉等材料的生物學效應,揭示了不同種類低能離子60(C)oy射線的生物學效應的異同,創造了低能離子注入棉花種子的剝殼打孔和離體材料的低溫包埋處理技術,篩選出了低能離子注入棉花誘變適宜的技術參數,建立了離子注入棉花誘變育種的新方法,選育了一批特殊的基因型材料和優良品種。
利用傳統育種結合生物技術選育出三個各具特點的優質、高產、多抗甜玉米新組合。皖玉10—早熟、多抗(抗旱、耐澇、抗大小斑病)優質、高產, 雙穗多穗率較高,適宜於鮮棒、凍粒和筍加工。皖玉14--早熟、多抗(抗倒、抗逆、抗小斑病和玉米螟)優質、高產、大粒型,適宜於凍粒和凍棒加工。皖玉15--優質高產多抗型加強甜玉米組合,適宜凍棒加工。是安徽省自育並率先審定的甜玉米新品種,在品質、抗逆適應性、早熟性和鮮粒加工特性上優於安徽生產上推廣品種。
同時,建立了三個組合雜交種高產制種的良種繁育技術體系;形成了甜玉米新品種無公害安全栽培技術規程;建立了甜玉米種子質量和品質鑒定技術;研製出以甜玉米芯以芯代木培養香菇培養基配方和培養平菇的培養技術;建立了鮮棒保鮮技術和凍粒凍棒加工工藝並開發出凍粒凍棒新產品。
皖玉系列甜糯玉米新品種平均畝產鮮穗900公斤,生育期短約80天左右,各類可溶性多糖、維生素以及微量元素等營養成份含量豐富,可作為是一種優質的“水果玉米”和健康食品開發利用。在安徽境內示範推廣面積超過10萬畝,直接經濟效益達4億元以上。
專用玉米是指具有特殊用途或特定功能的玉米,包括高澱粉、高直鏈澱粉、高油、甜、糯等類型。隨著可降解薄膜等新型生物材料和玉米澱粉精深加工業的發展對高澱粉、高直鏈澱粉玉米原料需求劇增;人們膳食結構調整、旅遊業和畜牧業等產業快速發展,甜糯、高賴氨酸等專用玉米市場需求也不斷擴大。然而,當前安徽省專用玉米種質資源相對匱乏,育種技術相對滯后,育種創新能力較低,導致自主選育的專用玉米品種少,多為引進臨省品種,其適應性、抗病性、抗逆性等不能滿足生產所需。為此,以專用玉米種質創建技術為突破口,重點加強高澱粉、高直鏈澱粉、甜糯等急需的專用玉米種質創建和品種選育,概述如下:針對玉米常規選育技術選擇效率低、育種周期長等問題,建立了優質專用玉米種質創建關鍵技術,主要包括:①以同步提高澱粉專用玉米總澱粉及直鏈澱粉含量比例和高油玉米油酸含量為目標,構建了過表達GBSS基因及sbeⅡb基因RNAi複合表達載體和玉米ZmFAD2基因RANi載體,建立了農桿菌介導的玉米原位轉化方法,經遺傳轉化,篩選獲得直鏈澱粉含量從26%提高到57%,油酸含量從24%提高到36%的新材料,創建了專用玉米種質分子調控技術;②以提高直鏈澱粉、甜糯等隱性基因專用玉米種質選擇效率為目標,創建了專用高直鏈澱粉ae基因完全連鎖的內部分子標記ae496,篩選獲得甜質su和糯質wx基因的SSR分子標記及2個標記複合輔助篩選體系,建立了專用玉米種質創建分子標記技術,顯著提高選擇效率;③以改良專用玉米抗病性、早熟性等農藝性狀為目標,通過低能離子束誘變頻率、萌發活性等效應研究,確定適宜的低能氮離子注入種子和氮、氬離子注入花粉的劑量水平、輻照方式等參數,建立了專用玉米種質改良的低能離子束誘變技術;④以提高專用玉米品質性狀檢測與早代篩選效率為目標,重點利用近紅外穀物分析儀,通過光譜掃描,優化得到玉米籽粒直鏈澱粉含量測定的近紅外定標模型,建立了專用玉米多粒和單粒種子品質性狀的簡便快速無損高通量篩選與鑒定技術。其中,過表達GBSS基因和RNA干涉sbeⅡb基因複合分子調控、高通量農桿菌介導的原位轉化、ae基因完全連鎖的分子標記ae496、玉米花粉低能離子注入誘變等技術具有明顯的創新性。利用上述技術與常規育種技術相結合,創建了高澱粉、高直鏈澱粉、甜糯等不同類型玉米種質270份,並利用這些種質選育出總澱粉含量達75.43%的高澱粉玉米品種“安隆4號”,三年累計推廣200萬畝以上,選育出甜糯型玉米品種“安農甜糯1號”和甜玉米新品種“皖甜2號”,三年累計推廣10萬畝,產生直接經濟效益1226萬元,間接經濟效益24.4億元,新增經濟效益2.15億元,經濟、社會和生態效益顯著。項目建立的種質創建技術和方法被同行引用借鑒,提高直鏈澱粉含量的分子調控技術等在其它作物上也得到應用,尤其是常規育種方法與分子調控、分子標記輔助選擇等相結合,促進了生物育種方法和技術的進步,創建的專用玉米種質資源和選育的新品種對促進玉米種業和加工業發展具有重要作用。
沿淮主要糧食作物澇漬災害綜合防控關鍵技術及應用,國家科技進步二等獎,第一完成人,2018
1. 沿淮低洼地作物減災增效關鍵技術及產品研發與應用,第一完成人,安徽省科技進步一等獎(2014)
2. 安徽省夏玉米豐產高效技術集成與應用,第一完成人,全國農牧漁業豐收獎(合作獎) (2013)
3. 優質專用玉米種質創建關鍵技術及應用,第一完成人, 安徽省科技進步二等獎(2013)
4. 優質高產多抗甜玉米新品選育與產業化, 第一完成人, 安徽省科技進步二等獎(2007)
5. 低能離子注入棉花生物效應及其應用技術研究, 第一完成人, 安徽省自然科學二等獎
(2002)
6.. 另外有作為第五和第六完成人的省部級自然科學二等獎兩項; 第一完成人省自然科學四等獎兩
項
(1) 皖玉10號(皖評審02050355) (2) 皖玉14號(皖評審04050441)
(3) 皖玉15號(皖評審04050442) (4) 安隆4號(皖評審07050574)
(5) 安農8號(皖評審2009003) (6) 安農9號(皖評審2012009)
(7) 安農591(皖評審2014009) (8)安農102(皖評審2016012)
(1)玉米ae基因的分子標記及其獲得方法和應用,國家授權發明專利
(2)簡便高效的農桿菌介導玉米轉基因方法,國家授權發明專利
(3)轉基因提高玉米籽粒澱粉中直鏈澱粉比例和籽粒總澱粉含量的方法,國家授權發明專利
(4)玉米體外應用dsRNA抗矮花葉病毒干擾調控技術,授權發明專利
(5)玉米兼抗矮花葉病毒及粗縮病毒無選擇標記siRNA複合表達載體及其構建方法,授權發明專利
(6)離子束輔助脈衝電泳的玉米轉基因技術,授權發明專利
(7)玉米花粉組織特異性啟動子及其表達載體
(8)大白菜幾丁質酶CHB4基因及其克隆方法
(9)對生玉米穩定自交系的創建與選育方法
(徠10)玉米對生性狀基因的分子標記及其應用
(11)一種高通量農桿菌介導的玉米基因原位轉化方法
(12)轉基因改良禾穀類作物籽粒澱粉品質的方法
(13)玉米花粉組織特異性啟動子及其表達載體
(*Corresponding author)
Yuancheng Peng, Liangliang Chen, Shengjun Li, Yueying Zhang, Ran Xu, Zupei Liu, Wuxia Liu,Jingjing Kong, Xiahe Huang, Yingchun Wang,Beijiu Cheng*, Leiying Zheng & Yunhai Li.BRI1 and BAK1 interact with G proteins and regulatesugar-responsive growth and development inArabidopsis.Nature Communications,2018,9:1522
Mian Xia, Xue Han, Hang He, Renbo Yu, Gang Zhen, Xiping Jia,Beijiu Cheng*and Xing Wang Deng*.Improved de novo genome assembly and analysis ofthe Chinese cucurbit Siraitia grosvenorii,also knownas monk fruit or luo-han-guo.Giga Science, 2018,7,1–9,
Fang Liu, Yunjian Xu, Guomin Han, Wei Wang, Xiaoyu Li andBeijiu Cheng*,Identification and Functional Characterization of a MaizePhosphate Transporter Induced by Mycorrhiza Formation,Plant Cell Physiol. 2018,59(8): 1683–1694,
Hengsheng Wang,Longjiang Gu,Xingen Zhang,Mingli Liu,Haiyang Jiang,Ronghao Cai,Yang Zhao andBeijiu Cheng*,Global transcriptome and weighted gene co-expression network
analyses reveal hybrid-specific modules and candidate genes relatedto plant height development in maize,Plant Molecular Biology, 2018,98:187–203,
Yang Zhao,Hengsheng Wang,Chen Bo,Wei Dai,Xingen Zhang,Ronghao Cai,Longjiang Gu,
Qing Ma,Haiyang Jiang,Jun Zhu andBeijiu Cheng*,Genome-wide association study of maize plant architecture using F1populations,Plant Molecular Biology,2018,
Chuxi Li1, Changlin Liu1, Xiantao Qi, Yongchun Wu, Xiaohong Fei, Long Mao, Beijiu Cheng, Xinhai Li and Chuanxiao Xie, RNA-guided Cas9 as an in vivo desired-target mutator inmaize, Plant Biotechnology Journal, 2017, doi: 10.1111/pbi.12739,pp. 1–11
1.
Chuxi Li1, Changlin Liu1, Xiantao Qi, Yongchun Wu, Xiaohong Fei, Long Mao, Beijiu Cheng, Xinhai Li and Chuanxiao Xie, RNA-guided Cas9 as an in vivo desired-target mutator inmaize, Plant Biotechnology Journal, 2017, doi: 10.1111/pbi.12739,pp. 1–11
2.Wang Q, Zha K, Chai W, Wang Y, Liu B, Jiang H, Cheng B*, Zhao Y. Functional analysis of the HD-Zip I gene ZmHDZ1 in ABA-mediated salt tolerance in rice. Journal of Plant Biology, 2017, 60.
3.Yongping Zhao, Congsheng Zhang, Wenwen Liu, Wei Gao, Changlin Liu,Gaoyuan Song, Wen-Xue Li, Long Mao, Beijiu Cheng, Yunbi Xu, Xinhai Li & Chuanxiao Xie,An alternative strategy for targeted gene replacement in plants using a dual-sgRNA/Cas9 design. Scientific Reports, 2016, 6:23890 | DOI: 10.1038/srep23890 1
4.Liu F, Xu Y, Jiang H, Jiang C, Du Y, Gong C, Wang W, Zhu S, Han G, Cheng B*. Systematic Identification, Evolution and Expression Analysis of the Zea mays PHT1 Gene Family Reveals Several New Members Involved in Root Colonization by Arbuscular Mycorrhizal Fungi. Int J Mol Sci. 2016,13; 17(6): pii: E930. doi: 10.3390/ijms17060930.
5.Lei Sheng, Lei,Jiang, Haiyang,Yan, Hanwei,Li, Xiaoyu,Lin, Yongxiang,Cheng, Beijiu*, MGFD: the maize gene families, Database (Oxford). 2016 Feb 20;2016. pii: baw004. doi: 10.1093
6.Wang Q, Liu J, Wang Y, Zhao Y, Jiang H, Cheng B. Systematic Analysis of the Maize PHD-Finger Gene Family Reveals a Subfamily Involved in Abiotic Stress Response . International Journal of Molecular Sciences, 2015, 16(10): 23517-44.
7.Lei Sheng , Wenbo Chai , Xuefeng Gong, Lingyan Zhou, Ronghao Cai, Xiaoyu Li, Yang Zhao, Haiyang Jiang , Beijiu Cheng*. Identification and Characterization of Novel Maize Mirnas Involved in Different Genetic Background, International Journal of Biological Sciences. 2015; 11(7): 781-793. doi: 10.7150/ijbs.11619
8.HanweiYan,CuipingJiang,XiaoyuLi,LeiSheng,QingDong,XiaojianPeng,QianLi,YangZhao,HaiyangJiangandBeijiuCheng*.PIGD:adatabaseforintronlessgenesinthePoaceae.BMCGenomics,2014,15:832
9.DefangGan,FeiDing,DanZhuang,HaiyangJiang,TongJiang,SuwenZhu
andBeijiuCheng*,ApplicationofRNAinterferencemethodologytoinvestigateanddevelopSCMVresistanceinmaize.JournalofGenetics,2014,93,305–311
10.QingDong,HaiyangJiang,QianqianXu,XiaomingLi,XiaojianPeng,YanXiang,BeijiuCheng*.Cloningandcharacterizationofamultifunctionalpromoterfrommaize(ZeamaysL.),AppliedBiochemistryandBiotechnology,2014,DOI:10.1007/s12010-014-1277-4.
11.YangZhao,QingMa,XiaoleiJin,XiaojianPeng,JinyangLiu1,LinDeng,HanweiYan,LeiSheng,HaiyangJiangandBeijiuCheng*.ANovelMaizeHomeodomain–LeucineZipper(HD-Zip)IGene,Zmhdz10,PositivelyRegulatesDroughtandSaltToleranceinBothRiceandArabidopsis.PlantCellPhysiol,2014,55(6):1142–1156
12.RonghaoCai,YangZhao,YufuWang,YongxiangLin,XiaojianPeng,QianLi,Yuwei,Chang,HaiyangJiang,YanXiangandBeijiuCheng*.OverexpressionofamaizeWRKY58geneenhancesdroughtandsalttoleranceintransgenicrice.PlantCellTissOrg,2014.DOI:10.1007/s11240-014-0556-7
13.YongxiangLin,YingCheng,JingJin,XiaoleiJin,HaiyangJiang,HanweiYan,BeijiuCheng*.GenomeDuplicationandGeneLossAffecttheEvolutionofHeatShockTranscriptionFactorGenesinLegumes.PLOSONE,2014,9(7):e102825
14.HanweiYan,WeiZhang,YongxiangLin,QingDong,XiaojianPeng,HaiyangJiang,SuwenZhu,BeijiuCheng*.Differentevolutionarypatternsamongintronlessgenesinmaizegenome.BiochemBiophResCo,2014,449:146–150
15.WeiZhang,HanweiYan,WeijunChen,JinyangLiu,CuipingJiang,HaiyangJiangandBeijiuCheng*.Genome-wideidentificationandcharacterizationofmaizeexpansingenesexpressedinendosperm.MolGenetGenomics,2014,DOI:10.1007/s00438-014-0867-8
16.LiangYue-gan,YinShuai-shuai,ChengBeijiu*,SiYou-bin,HongLi-Fang,JiangHai-yang,HanGuo-min.Effectofthermo-limeandhot-waterpretreatmentonthepyrolysischaracteristicsandstructureofSpartinaalterniflora.JournalofThermalAnalysisandCalorimetry,2014,116:383-390.
17.ZhenLi,HaiyangJiang,LingyanZhou,LinDeng,YongxiangLin,XiaojianPeng,HanweiYan,BeijiuCheng*;MolecularevolutionoftheHD-ZIPIgenefamilyinlegumegenomes,Gene,2013,DOI.10.1016/j.gene.2013.09.084
18.H.Y.Jiang,J.Zhang,J.Wang,M.Xia,S.W.ZhuandB.J.Cheng*,RNAinterference-mediatedsilencingofthestarchbranchingenzymegeneimprovesamylosecontentinrice,GenetMolRes,2013,12(3):2800-2808.
1.Xiaojian Peng, Yang Zhao, Jiangang Cao, Wei Zhang, Haiyang Jiang, Xiaoyu Li, Qing Ma, Suwen Zhu,Beijiu Cheng*, CCCH-Type Zinc Finger Family in Maize: Genome-Wide Identification, Classification and Expression Profiling under Abscisic Acid and Drought Treatments,PLoS ONE , 2012,7(7): e40120
2.W.W.Wang, Q. Ma, Y. Xiang, S.W. Zhu and B.J. Cheng*, Genome-wide analysis of immunophilin FKBP genes and expression patterns in Zea mays, Genetics and Molecular Research, 2012,11 (2): 1690-1700
3.Yang Zhao, Yuqiong Zhou, Haiyang Jiang, Xiaoyu Li, Defang Gan, Xiaojian Peng, Suwen Zhu, Beijiu Cheng*, Systematic Analysis of Sequences and Expression
Patterns of Drought-Responsive Members of the HD-Zip Gene Family in Maize, PLoS ONE , 2011,6(12): e28488
4.Y.Q. Tan, C.X. Xie, H.Y. Jiang, H. Ye, Y. Xiang, S.W. Zhu and B.J. Cheng*,Molecular mapping of genes for opposite leafing in maize using simple-sequence repeat markers, Genetics and Molecular Research, 2011,10 (4): 3472-3479
5.Yongxiang Lin, Haiyang Jiang, Zhangxin Chu, Xiuli Tang, Suwen Zhu, Beijiu Cheng* ,Genome-wide identification, classification and analysis of heat shock transcription factor family in maize, BMC Genomics , 2011, 12: 76-90
6.Yang Zhao , Xiaoyu Li ,Wenjuan Chen,Xiaojian Peng ,Xiao Cheng,Suwen Zhu,Beijiu Cheng*, Whole-genome survey and characterization of MADS-box gene family in maize and sorghum, Plant Cell Tiss Organ Cult, 2011,105:159–173
7.Yexiong Qian, Ying Cheng, Xiao Cheng, Haiyang Jiang, Suwen Zhu, Beijiu Cheng*, Identification and characterization of Dicer-like, Argonaute and RNA-dependent RNA polymerase gene families in maize. Plant Cell Rep , 2011, 30:1347-1363
8.Yan Liu, HaiYang Jiang ,Wenjuan Chen,Yexiong Qian ,Qing Ma ,Beijiu Cheng ,Suwen Zhu,Genome-wide analysis of the auxin response factor (ARF) gene family in maize (Zea mays),Plant Growth Regul , 2011, 63:225–234
9.Defang Gan, Haiyang Jiang, Jiao Zhang, Yang Zhao, Suwen Zhu,,Beijiu Cheng* ,Genome-wide analysis of BURP domain-containing genes in Maize and Sorghum, Mol Biol Rep, 2011, 38:4553-4563
10.Defang Gan · Jiao Zhang · Haibo Jiang ·Tong Jiang · Suwen Zhu · Beijiu Cheng, Bacterially expressed dsRNA protects maize against SCMV Infection,Plant Cell Rep ,2010,29(11):1261-8.
11.Yexiong Qian, Xiao Cheng, Yan Liu, Haiyang Jiang, Suwen Zhu, Beijiu Cheng* , Reactivation of a silenced minimal Mutator transposable element system following low-energy nitrogen ion implantation in maize , Plant Cell Rep ,2010, 29:1365–1376
12. F. Deng , Suwen. Zhu, L.J. Wu and B.J. Cheng*, Effects of low-energy argon ion implantation on the dynamic organization of the actin cytoskeleton during maize pollen germination. Genetics and Molecular Research, 2010, 9 (2): 785-796
13.X. Hu, X. Cheng, H. Jiang, S. Zhu, B. Cheng and Y. Xiang, Genome-wide analysis of cyclins in maize (Zea mays), Genetics and Molecular Research , 2010,9 (3): 1490-1503
14. F. Chen, S.W. Zhu, Y. Xiang, H.Y. Jiang and B.J. Cheng* , Molecular marker-assisted selection of the ae alleles in maize, Genetics and Molecular Research ,2010, 9 (2): 1074-1084
15.Xiao Cheng, Haiyang Jiang, Yang Zhao, Yexiong Qian, Suwen Zhu and Beijiu Cheng*, A genomic analysis of disease-resistance genes encoding nucleotide binding sites in Sorghum bicolor, Genetics and Molecular Biology, 2010, 33, 2: 292-297
16.X. Cheng, H. Jiang, J. Zhang, Y. Qian, S. Zhu and B. Cheng*, Overexpression of type-A rice response regulators, OsRR3 and OsRR5, results in lower sensitivity to cytokinins, Genetics and Molecular Research, 2010,9 (1): 348-359
17.Tao Fang,Fan Jun, Zhu Suwen,Cheng Beijiu*, Functional Expression of a Delta-12 Fatty Acid Desaturase Gene(FAD2)from Zea mays in Saccharomyces cerevisiae, Acta Laser Biology Siniga,2010,19(1):38-44
18. Ye Hui , Ma Jingming , Feng Chun ,Cheng Ying , Zhu Suwen , Cheng Beijiu*, The Breeding of a Pigment Mutant Strain of Steroid Hydroxylation Aspergillus Flavus by Low Energy Ion Implantation, Plasma Science and Technology, 2009,11 (1):122-126
19.Wang Jieming, Jiang Haiyang,Zhao Ynng,Xiang Yan,Zhu Suwen,Fan Jun,Chang Beijiu* , Cloning and Sequence Analysis of the NAD-dependent CytosoHc Malate Dehydrogenase Gene from Zea Mays, Acta Laser Biology Sinica, 2009,18(2):128-155
20. Qian Yexiong, Jiang Haiyang,Han Gouming,Cheng Beijiu*,A Modified Method of Agrobacterium-Mediated in Planta Transformation of Maize,Acta Laser Biology Siniga, 2009, 18(2): 248-254
21.Shiquan Qian, Xiaoyu Li, Suwen Zhu, Beijiu Cheng*, A Preliminary study on the molecular mechanism of high yield polyhydroxy- alkanoates mutation strain pCBH4 screened by ion beams. Acta Laser Biology Siniga, 2009,18(1): 24-30
22.Qian Shiquan, Cheng Ying, Zhu Suwen, Cheng Beijiu*, Creation of High-Yield Polyhydroxyalkanoates Engineered Strains by Low Energy Ion Implantation, Plasma Science and Technology, 2008 10 (6):769-774
23. Zou Xiaonan, Ye Hui, Zhu Suwen,Cheng Beijiu*, Screening High-yield bacteria Rhizopus chinensis Carrying L-lactic acid by Low Energy Ions Implantation, Acta Laser Biology Siniga, 2008,17(3): 406-411
24. Tao Fang, Zhu Suwen, Fan Jun, Cheng Beijiu* Cloning and Sequence Analysis of maize FAD2 . Journal of Plant Physiology and Molecular Biology , 2006, 32 (6): 649-656
25.Chuxi Li, Changlin Liu, Xiantao Qi, Yongchun Wu, Xiaohong Fei, Long Mao, Beijiu Cheng, Xinhai Li and Chuanxiao Xie, RNA-guided Cas9 as an in vivo desired-target mutator inmaize, Plant Biotechnology Journal, 2017, doi: 10.1111/pbi.12739,pp. 1–11
26.Wang Q, Zha K, Chai W, Wang Y, Liu B, Jiang H, Cheng B*, Zhao Y. Functional analysis of the HD-Zip I gene ZmHDZ1 in ABA-mediated salt tolerance in rice. Journal of Plant Biology, 2017, 60.
27.Yongping Zhao, Congsheng Zhang, Wenwen Liu, Wei Gao, Changlin Liu,Gaoyuan Song, Wen-Xue Li, Long Mao, Beijiu Cheng, Yunbi Xu, Xinhai Li & Chuanxiao Xie,An alternative strategy for targeted gene replacement in plants using a dual-sgRNA/Cas9 design. Scientific Reports, 2016, 6:23890 | DOI: 10.1038/srep23890 1
28.Liu F, Xu Y, Jiang H, Jiang C, Du Y, Gong C, Wang W, Zhu S, Han G, Cheng B*. Systematic Identification, Evolution and Expression Analysis of the Zea mays PHT1 Gene Family Reveals Several New Members Involved in Root Colonization by Arbuscular Mycorrhizal Fungi. Int J Mol Sci. 2016,13; 17(6): pii: E930. doi: 10.3390/ijms17060930.
29.Lei Sheng, Lei,Jiang, Haiyang,Yan, Hanwei,Li, Xiaoyu,Lin, Yongxiang,Cheng, Beijiu*, MGFD: the maize gene families, Database (Oxford). 2016 Feb 20;2016. pii: baw004. doi: 10.1093
30.Wang Q, Liu J, Wang Y, Zhao Y, Jiang H, Cheng B. Systematic Analysis of the Maize PHD-Finger Gene Family Reveals a Subfamily Involved in Abiotic Stress Response . International Journal of Molecular Sciences, 2015, 16(10): 23517-44.
31.Lei Sheng , Wenbo Chai , Xuefeng Gong, Lingyan Zhou, Ronghao Cai, Xiaoyu Li, Yang Zhao, Haiyang Jiang , Beijiu Cheng*. Identification and Characterization of Novel Maize Mirnas Involved in Different Genetic Background, International Journal of Biological Sciences. 2015; 11(7): 781-793. doi: 10.7150/ijbs.11619
32. Hanwei Yan, Cuiping Jiang, Xiaoyu Li, Lei Sheng, Qing Dong, Xiaojian Peng, Qian Li, Yang Zhao, Haiyang Jiang and Beijiu Cheng*. PIGD: a database for intronless genes in the Poaceae. BMC Genomics ,2014, 15:832
33. Defang Gan, Fei Ding, Dan Zhuang, Haiyang Jiang, Tong Jiang, Suwen Zhu
and Beijiu Cheng*, Application of RNA interference methodology to investigate and develop SCMV resistance in maize. Journal of Genetics, 2014,93, 305–311
34.Qing Dong,Haiyang Jiang,Qianqian Xu,Xiaoming Li,Xiaojian Peng,Yan Xiang,Beijiu Cheng*. Cloning and characterization of a multifunctional promoter from maize (Zea mays L.), Applied Biochemistry and Biotechnology, 2014, DOI: 10.1007/s12010-014-1277-4.
35.Yang Zhao, Qing Ma, Xiaolei Jin, Xiaojian Peng, Jinyang Liu1, Lin Deng, Hanwei Yan,Lei Sheng,Haiyang Jiang and Beijiu Cheng*. A Novel Maize Homeodomain–Leucine Zipper (HD-Zip) I Gene, Zmhdz10, Positively Regulates Drought and SaltTolerance in Both Rice and Arabidopsis. Plant Cell Physiol, 2014, 55(6): 1142–1156
36. Ronghao Cai, Yang Zhao, Yufu Wang, Yongxiang Lin, Xiaojian Peng, Qian Li, Yuwei, Chang, Haiyang Jiang, Yan Xiang and Beijiu Cheng*. Overexpression of a maize WRKY58 gene enhances drought and salt tolerance in transgenic rice. Plant Cell Tiss Org, 2014. DOI: 10.1007/s11240-014-0556-7
37. Yongxiang Lin, Ying Cheng, Jing Jin, Xiaolei Jin, Haiyang Jiang, Hanwei Yan, Beijiu Cheng*. Genome Duplication and Gene Loss Affect the Evolution of Heat Shock Transcription Factor Genes in Legumes. PLOS ONE, 2014 ,9(7): e102825
38. Hanwei Yan, Wei Zhang, Yongxiang Lin, Qing Dong, Xiaojian Peng, Haiyang Jiang, Suwen Zhu, Beijiu Cheng*. Different evolutionary patterns among intronless genes in maize genome. Biochem Bioph Res Co, 2014, 449: 146–150
39. Wei Zhang, Hanwei Yan, Weijun Chen, Jinyang Liu, Cuiping Jiang, Haiyang Jiang and Beijiu Cheng*. Genome-wide identification and characterization of maize expansin genes expressed in endosperm. Mol Genet Genomics, 2014,DOI: 10.1007/s00438-014-0867-8
40. Liang Yue-gan, Yin Shuai-shuai, Cheng Beijiu*, Si You-bin, Hong Li-Fang, Jiang Hai-yang, Han Guo-min. Effect of thermo-lime and hot-water pretreatment on the pyrolysis characteristics and structure of Spartina alterniflora. Journal of Thermal Analysis and Calorimetry, 2014, 116:383-390.
41.Zhen Li , Haiyang Jiang , Lingyan Zhou, Lin Deng, Yongxiang Lin, Xiaojian Peng, Hanwei Yan, Beijiu Cheng*;Molecular evolution of the HD-ZIP I gene family in legume genomes, Gene, 2013,DOI. 10.1016/j.gene.2013.09.084
42. H.Y. Jiang, J. Zhang, J. Wang, M. Xia, S.W. Zhu and B.J. Cheng*, RNA interference-mediated silencing of thestarch branching enzyme gene improvesamylose content in rice, Genet Mol Res, 2013, 12 (3): 2800-2808.