- 冯波
- 电子邮件:fengbo@cib.ac.cn
- 职 称:高级工程师
- 学 历:博士研究生
- 通讯地址:四川省成都市天府新区群贤南街23号
- 邮 编:610213
个人简历
冯波,博士,中国科学院成都生物研究所副研究员,硕士研究生导师,入选中国科学院青年创新促进会、中国科学院“西部之光-西部青年学者A类”人才培养计划、中国科学院-孟山都青年人才交流计划。长期从事作物基因与环境信号互作调控作物生长发育的分子机制。近年来以小麦为研究材料,在产量性状相关研究中取得一系列进展,以(共同)通讯作者在Crop journal,Theoretical and applied genetics,Journal of Integrative Agriculture,Journal of Agriculture and Food Chemistry,Frontiers in plant science等本领域主流国际期刊发表文章20余篇,参与选育“中科麦”和“中科糯麦”系列小麦新品种17个。
研究方向
1、基因与环境互作调控作物生长发育的分子机制
作物的生长发育受内在基因和外在环境(如:光照强度、土壤氮水平等)的共同影响。解析基因与环境互作调控作物CO2和氮素之间的竞争与协同,为培育适应“高碳低肥型”农作物新品种提供理论支撑。
2、高产、优质、高效等复杂农艺性状形成的分子基础
综合运用分子遗传学、基因组学、表观遗传学、生物化学和基因编辑技术等策略挖掘作物产量性状相关新基因,解析高产、优质、高效等复杂农艺性状间协同调控的分子网络;挖掘优异等位基因,并通过基因组选择培育高产、优质、高效协同改良的农作物新品种。
学生培养情况简介:
已培养硕士3名。1名浙江大学攻读博士,1名中国科学院青岛能源与过程研究所研究助理,1名成都某国企就职。
招聘信息:
计划招聘特聘研究助理/博士后1名,客座研究生、长/短期实习生2-3名,欢迎对小麦生长发育与CO2-氮素耦合高效利用研究感兴趣的青年学子申请。
获奖及荣誉
承担科研项目情况
1. 中国科学院“西部之光-西部青年学者A类”,小麦籽粒重量和穗粒数基因的克隆与育种应用,2022XBZG_XBQNXZ_A_001,100万元,主持,2023-2025;
2. 中国科学院先导专项,专用小麦增值品种的精准设计,XDA24030402,参与,343万元,2019-2024;
2.中国科学院青年促进会人才项目,小麦产量基因的克隆与应用,2018403,80万元,主持,2018-2021;
3.国家自然科学基金面上项目,西藏小麦地方品种曲白春抗条锈病基因Yrqbc的精细定位与应用,31671679,62万元,主持,2017-2020;
4.国家转基因重大专项,小麦品质基因克隆与功能验证,2016ZX08009-003-004-005,171.7万元,主持,2016-2020;
5.七大农作物育种,主要农作物品质性状形成的分子基础,12万元,主持,2016-2020;
6.国家科技支撑计划任务,特色荞麦关键新基因发掘,2013BAD01B05-8,25万元,主持,2013-2017。
代表论著
代表论著
Liao S,Xu Z,Fan X,Zhou Q,Liu X,Jiang C,Ma F,Wang Y,Wang T,Feng B* (2024) Identification and validation of two major QTL for grain number per spike on chromosomes 2B and 2D in bread wheat (Triticum aestivum L.). Theoretical and Applied Genetics 137:147(*Corresponding author)
Liao S,Xu Z,Fan X,Zhou Q,Liu X,Jiang C,Chen L,Lin D,Feng Bo* & Wang T (2024) Genetic dissection and validation of a major QTL for grain weight on chromosome 3B in bread wheat (Triticum aestivum L.). Journal of Integrative Agriculture 23(1):77–92
Jiang C,Xu Z,Fan X,Zhou Q,Ji G,Liao S,Wang Y,Ma F,Zhao Y,Wang T and Feng B* (2024) Genetic dissection of major QTL for grain number per spike on chromosomes 5A and 6A in bread wheat (Triticum aestivum L.). Frontiers in plant science 14:1305547
Jiang C,Xu Z,Fan X,Zhou Q,Ji G,Chen L,Yu Q,Liao S,Zhao Y,Feng B* & Wang T*(2023) Identification and validation of quantitative trait loci for fertile spikelet number per spike and grain number per fertile spikelet in bread wheat (Triticum aestivum L.). Theoretical and Applied Genetics 136:69
Ji G,Feng B*,Xu Z,Fan X,Zhou Q,Chen L,Yu Q,Liao S,Jiang C,Wang T* (2023) Identification and validation of major QTL for grain size and weight in bread wheat (Triticum aestivum L.). Crop Journal 11:564–572
Chen L,Yu Q,Liu X,Liao S,Jiang C,Lin D,Ma F, Feng B* and Wang T* (2022) Genetic dissection of quantitative trait loci for flag leaf size in bread wheat (Triticum aestivum L.). Frontiers in plant science. 13:1047899
Yu Q,Feng B*,Xu Z,Fan X,Zhou Q,Ji G,Liao S,Gao P and Wang T* (2022) Genetic Dissection of Three Major Quantitative Trait Loci for Spike Compactness and Length in Bread Wheat (Triticum aestivum L.). Frontiers in plant science 13: 882655
Ji G,Xu Z,Fan X,Zhou Q,Yu Q,Liu X,Liao S,Feng B*,Wang T (2021) Identification of a major and stable QTL on chromosome 5A confers spike length in wheat (Triticum aestivum L.). Molecular Breeding 41: 56
Wang F,Xu Z,Fan X,Zhou Q,Cao J,Ji G,Jing S, Feng B*,Wang T* (2019) Transcriptome analysis reveals complex molecular mechanisms underlying UV tolerance of wheat (Triticum aestivum, L.). Journal of Agricultural and Food Chemistry 67,563−577
Jin X, Feng B*,Xu Z,Fan X,Liu J,Liu Q,Zhu P,Wang T* (2018) TaAAP6-3B,a regulator of grain protein content selected during wheat improvement. BMC Plant Biology 18(1):71
Liu J,Xu Z,Fan X,Cao J,Wang F,Ji G,Yang L, Feng B*,Wang T* (2018) A genome-wide association study of wheat spike related traits in China. Frontiers in Plant Science 9:1584
Feng B,Xu Z,Wang X,Jiang F,Zhao G,Wang T* (2014) Molecular characterization of a novel HMW glutenin subunit Dx2.3*t from Aegilops tauschii. Cereal Research Communications 42(3):503-513
Feng B,Sestili F,Masci S,Margiotta B,Xu Z,Yang Z,Xiang C,Zhou C,Lafiandra D,Wang T* (2016) The Chinese bread wheat cultivar Xiaoyanmai 7 harbours genes encoding a pair of novel high-molecular-weight glutenin subunits inherited from cereal rye. Crop & Pasture Science 67:29–36
Feng B,Dong Z,Xu Z,Wang D & Wang T* (2012) Molecular characterization of a novel type of lipoxygenase (LOX) gene from common wheat (Triticum aestivum L.). Molecular Breeding 30:113-124
Feng B,An X,Xu Z,Liu D,Zhang A,Wu N,Wang T* (2011) Molecular cloning of a novel chimeric HMW glutenin subunit gene 1Dx5’from a common wheat line W958. Molecular Breeding 28:163-1701
Feng B,Dong Z,Xu Z,An X,Qin H,Wu N,Wang D* & Wang T* (2010) Molecular analysis of lipoxygenase (LOX) genes in common wheat and phylogenetic investigation of LOX proteins from model and crop plants. Journal of Cereal Science. 52(3). 387-394
冯波,舒守贵,张爱民,王涛* (2006) 麦类作物种子中戊聚糖研究。植物学通报 23(2):215-223
植物新品种权:
王涛,徐智斌,冯波。中科麦138,品种权号:CNA20160006.3
王涛,徐智斌,冯波,王迅。紫糯麦168,品种权号:CNA20130181.2
王涛,徐智斌,冯波。W5293,品种权号:CNA20100798.0
审定品种:
中科麦138 (川审麦2014002):王涛、徐智斌、冯波、江桂英
中科糯麦1号(渝审麦2015002):王涛、徐智斌、冯波、樊小莉
中科麦47 (川审麦2014008):王涛、徐智斌、冯波、江桂英
中科麦36(渝审麦2016001):徐智斌、王涛、冯波、樊小莉
中科麦169(川审麦20190004):王涛、徐智斌、冯波、樊小莉、周强
中科糯麦18(川审麦20190010):樊小莉、徐智斌、冯波、王涛、周强
中科紫糯麦168(渝审麦20200002):王涛、徐智斌、冯波、樊小莉、周强
中科麦13(川审麦20200014):王涛、徐智斌、冯波、樊小莉、周强
中科糯麦208(川审麦20200022):王涛、徐智斌、冯波、樊小莉、周强
中科糯麦258(川审麦20200022):王涛、徐智斌、周强、冯波、樊小莉
中科麦38(渝审麦20220001):王涛、徐智斌、冯波、樊小莉、周强
中科麦181(渝审麦20220002):王涛、徐智斌、冯波、樊小莉、周强
发明专利:
王涛,冯波,徐智斌。 一种定量测定作物种子脂肪氧化酶活性的方法:ZL 200610022638.0
王涛,冯波,金秀锋,徐智斌,樊小莉,刘静。一种检测小麦高籽粒蛋白质含量的引物、试剂盒、检测方法及其应用:ZL201610968284.2
冯波,王涛,金秀锋,徐智斌,樊小莉,刘静。一种检测小麦低籽粒蛋白质含量的引物、试剂盒、检测方法及其应用:ZL201610947212.X
