WU Zilong,WANG Lei,ZHANG Hao,et al.Research Progress on Application Basis of Setaria viridis[J].Northern Horticulture,2021,(05):130-135.[doi:10.11937/bfyy.20201018]
狗尾草应用基础的研究进展
- Title:
- Research Progress on Application Basis of Setaria viridis
- Keywords:
- Setaria viridis; model plant; genetic breeding
- 文献标志码:
- A
- 摘要:
- 狗尾草具有NADP-ME型C4光合作用,适合高光效形成机制的研究,生命周期短暂,基因组较小,植株低矮,种子数量多,便于进行遗传操作,被认为是研究C4光合作用的模式物种,并且狗尾草生长要求简单,抗旱耐盐,适应性广,与谷子、柳枝稷近缘,又是理想的旱生禾本科粮食作物和生物能源植物的遗传研究模型。该研究介绍了狗尾草的研究基础,综述了狗尾草的生长发育特性、生理生化特性、种质资源、功能基因以及药用价值的研究进展,并对狗尾草的发展趋势进行展望。
- Abstract:
- Setaria viridis has NADP-ME type of C4 photosynthesis,which is suitable for the study of the formation mechanism of high light efficiency.Because of its short life cycle,small genome size,high number of seeds,easy for genetic manipulation,is thought to be the model species for studying C4 photosynthesis.Setaria viridis has simple growth requirements,drought tolerance and salt tolerance,wide adaptability,close relationship with millet and switchgrass,and is an ideal genetic research model for food crops and bioenergy plants of xerophytes.In this study,the research foundation of green foxtail millet was introduced,and the progress of its growth and physiological characteristics,germplasm resources,functional genes and medicinal value were reviewed.
参考文献/References:
[1]贾风勤,朱新荣,张会群.老化湿度和老化时间对狗尾草种子活力指标的影响[J].种子,2016,35(7):79-82,87.[2]王永强,智慧,李伟,等.狗尾草属野生近缘种的染色体鉴定[J].植物遗传资源学报,2007,8(2):34-43.[3]BRUTNELL T P,WANG L,SWARTWOOD K,et al.Setaria viridis:A model for C4 photosynthesis[J].The Plant Cell,2010,22(8):2537-2544.[4]李伟,智慧,王永芳,等.适合于狗尾草属遗传分析的ISSR标记筛选及反应体系优化研究[J].华北农学报,2007,22(4):45-54.[5]阎洪波,黎裕,王天宇,等.中国谷子主产区谷子近缘种狗尾草的遗传多样性[J].西北植物学报,2003,23(6):78-89.[6]陈洁,李玉双,庞莉莉,等.江苏不同居群狗尾草叶片解剖特征的比较研究[J].植物科学学报,2015,33(4):448-457.[7]CHRITOS A D.Pyrithiobac reduces control of green foxtail (Setaria viridis) and bristly foxtail (Setaria verticillata) by propaquizafop[J].Crop Protection,2009,28(7):616-618.[8]李善林,韩烈保.高温和干旱条件下狗尾草对三种草坪草生长的影响[J].2000,22(2):34-37.[9]朱强,张得怀,王雪剑,等.狗尾草水提取物对6种植物的化感作用[J].杂草科学,2013,31(4):25-30.[10]DAWSON J H,BRUNS V F.Emergence of barnyard grass,green foxtail and yellow foxtail seedling from various soil depths[J].Weeds,1962(10):136-139.[11]BASKIN J M,BASKIN C C.A classification system for seed dormancy[J].Seed Science Research,2004(14):1-16.[12]SEBASTIAN J,WONG M K,TANG E,et al.Methods to promote germination of dormant Setaria viridis seeds[J].PLoS One,2014,9(4):95-109.[13]HWM H.A critical update on seed dormancy.Ⅰ.Primary dormancy[J].Seed Science Research,1995(5):61-73.[14]贾风勤.人工老化处理时间与不同休眠程度狗尾草种子萌发特征间关系的研究[J].种子,2017,36(12):81-84.[15]李玉环.高湿对破除休眠农田狗尾草种子萌发及幼苗胚芽鞘生长的影响[J].种子,2017,36(5):101-104.[16]贾风勤,李幼龙,张会群.温度对狗尾草和金色狗尾草植物种子萌发的影响[J].种子,2016,35(4):30-33,43.[17]SWANTON C J,HUANG J Z,DEEN W,et al.Effects of temperature and photoperiod on Setaria viridis[J].Weed Science,1999,47(4):446-453.[18]MORSE S R,BAZZA F A.Elevated CO2 and temperature alter recruitment and size hierarchies in C3 and C4 annuals[J].Ecology,1994,75:966-975.[19]GUNDERSON C A,NORBY R J,WULLSCHLEGER S D.Foliar gas exchange responses of two deciduous hard woods during three years of growth in elevated CO2:No loss of photosynthetic enhancement[J].Plant,Cell and Environment,1993(16):797-807.[20]TISSUE D T,GRIFLIN K L,THOMAS R B.Effects of low and elevated CO2 on C3 and C4 annuals.Ⅱ.Photosynthesis and leaf biochemistry[J].Oecologia,1995,101:21-28.[21]冯文新,宗毓铮,郝兴宇,等.高CO2浓度下狗尾草与谷子光合特性比较研究[J].草地学报,2017,25(2):424-428.[22]孙伟,王德利,王立,等.狗尾草蒸腾特性与水分利用效率对模拟光辐射增强和CO2浓度升高的响应[J].植物生态学报,2003,27(4):448-453.[23]智慧,刁现民,吕芃,等.人工盐胁迫法鉴定谷子及狗尾草物种耐盐基因型[J].河北农业科学,2004,8(4):15-18.[24]GUO R,ZHOU J,HAO W P.Germination,growth,photosynthesis and ionic balance in Setaria viridis seedlings subjected to saline and alkaline stress[J].Canadian Journal of Plant Science,2011,91(6):1077-1088.[25]KAZNINA N M,TITOV A F,LAIDINEN G F,et al.Setaria viridis tolerance of high zinc concentratons[J].Biology Bulletin,2009,36(11):575-580.[26]AIHEMAITI A,JIANG J G,GAO Y C,et al.The effect of vanadium on essential element uptake of Setaria viridis′ seedlings[J].Journal of Environmental Management,2019,237:399-407.[27]KWON Y S,KIM E Y,KIM W J,et al.Antioxidant constituents from Setaria viridis[J].Archives of Pharmacal Research,2002,25:300-305.[28]FAN L,MA J,CHEN Y H,et al.Antioxidant and antimicrobial phenolic compounds from Setaria viridis[J].Chemistry of Natural Compounds,2014,50(3):433-437.[29]贤景春,高威.狗尾巴草多酚提取及抗氧化性研究[J].四川农业大学学报,2019,30(3):348-351.[30]段笑影,曹冬冬,崔强,等.狗尾草多酚的提取工艺及抗氧化活性研究[J].中国酿造,2019,38(7):168-173.[31]RICE E L.Allelopathy[M].New York:Academic Press,1984.[32]朱强,张得怀,王雪剑,等.狗尾草水提取物对6种植物的化感作用[J].杂草科学,2013,31(4):25-30.[33]LI Y Q,HU T X,ZENG F M,et al.Allelopathic effects of decomposing Eucalyptus grandis leaf litter on growth and physiology of Setaria viridis[J].Allelopathy Journal,2014,34(1):17-31.[34]邓建梅,杨顺义,沈慧敏,等.黄花棘豆甲醇提取液对油菜、燕麦、反枝苋和狗尾草萌发和幼苗生长的影响[J].植物保护,2009,35(5):48-52.[35]任彦鑫.中国青狗尾草遗传多样性研究[D].晋中:山西农业大学,2014.[36]WANG R L,WENDEL J F,DEKKER J H.Weedy adaptation in Setaria Spp.Ⅰ. isozyme analysis of genetic diversity and population genetic structure in Setaria viridis[J].American Journal of Botany,1995,82:308-317.[37]ENNEQUIN M L T D′,PANAUD O,TOUPANCE B,et al.Assessment of genetic relationships between Setaria italica and its wild relative S.viridis using AFLP markers[J].Theoretical and Applied Genetics,2000,100:1061-1066.[38]JIA G,SHI S,WANG C,et al.Molecular diversity and population structure of Chinese green foxtail (Setaria viridis (L.) Beauv.) revealed by microsatellite analysis[J].Journal of Experimental Botany,2013,64:3645-3655.[39]HUANG P,FELDMAN M,SCHRODER S,et al.Population genetics of Setaria viridis,a new model system[J].Molecular Ecology,2014(23):4912-4925.[40]杨天育,黄相国,何继红,等.谷子遗传资源多样性研究进展[J].西北农业学报,2003,12(1):43-47.[41]WANG S,GAO L Z.Complete chloroplast genome sequence of green foxtail (Setaria viridis),a promising model system for C4 photosynthesis[J].DNA Mapping,Sequencing,and Analysis,2016,27(5):3707-3708.[42]成亮,刘宝玲,刘盼,等.青狗尾草Dof 基因家族的全基因组鉴定及组织特异性表达分析[J].分子植物育种,2018,16(13):4226-4234.[43]ERMAWAR R A,COLLINS H M,BYRT C S,et al.Genetics and physiology of cell wall polysaccharides in the mdel C4 grass,Setaria viridis spp[J].BMC Plant Biology,2015(15):236-253.[44]张丽丽,赵辉,郭静远,等.模式植物狗尾草响应不同干旱及盐胁迫表达的内参基因actin及其应用[J].热带作物学报,2019,40(12):2418-2425.[45]赵辉,张丽丽,郭静远,等.甘露醇胁迫下模式植物狗尾草种子萌发期抗旱性鉴定与评价指标研究[J].热带作物学报,2017,38(11):2060-2065.[46]赵辉,张丽丽,郭静远,等.氯化钠胁迫下模式植物狗尾草种子萌发期抗盐性鉴定与评价指标研究[J].热带作物学报,2017,38(12):2273-2279.[47]李燕.谷子与狗尾草基因组比较及落粒相关基因PT2的鉴定与分析[D].晋中:山西农业大学,2018.[48]RIZAL G,ACEBRON K,MOGUL R,et al.Study of flowering pattern in Setaria viridis,a proposed model species for C4 photosynthesis research[J].Journal of Botany,2013,116(1):291-297.[49]HUANG P,JIANG H,ZHU C,et al.Sparse panicle1 is required for inflorescence development in Setaria viridis and maize[J].Nature Plants,2017,3(5):454-460.[50]贾冠清,刁现民.谷子(Setaria italica (L.) P.Beauv.)作为功能基因组研究模式植物的发展现状及趋势[J].生命科学,2017,29(3):292-301.[51]van ECK J,SWARTWOOD K.Setaria viridis,In:Wang K.(ed.),agrobacterium protocols,methods in molecular biology[M].New York:Springer,2015.[52]赵辉,郭静远,孔华,等.狗尾草胚性愈伤高效农杆菌转化体系的建立[J].热带作物学报,2017,38(6):1106-1112.[53]赵辉,郭静远,孔华,等.金刚砂辅助农杆菌转化狗尾草种子高效遗传转化体系的建立[J].分子植物育种,2017,15(12):4955-4960.[54]MARTINS P K,NAKAYAMA T J,RIBEIRO A P,et al.Setaria viridis floral-dip:A simple and rapid Agrobacterium-mediated transformation method[J].Biotechnology Reports,2015(6):61-63.[55]SAHA P,BLUMWALD E.Spike-dip transformation of Setaria viridis[J].Plant Journal,2016,86:89-101.[56]张爱武,罗素琴,刘乐乐,等.蒙药狗尾草果实中总糖的提取、鉴定和含量测定[J].内蒙古医学院学报,2010,32(5):472-474.[57]张爱武,刘乐乐,罗素琴,等.正交试验优选蒙药狗尾草果实中总鞣质的提取工艺研究[J].内蒙古医科大学学报,2013,35(3):216-220.[58]唐建成.止痒良药狗尾草[J].植物杂志,1999(4):15.[59]吴耕农,易延逵,毛朝曙.狗尾草治疗寻常疣与鸡眼的临床观察[J].中国民族民间医药,2008,17(4):48-49.[60]BRUTNELL T P,BENNETZEN J L,VOGEL J P.Brachypodium distachyon and Setaria viridis:Model genetic systems for the grasses[J].Annual Review of Plant Biology,2015,66:465-485.
备注/Memo
第一作者简介:吴子龙(1977-),男,硕士,副教授,现主要从事植物资源学等研究工作。E-mail:wuzilonghd@126.com.责任作者:赵昕(1977-),女,博士,教授,现主要从事菌根生态学等研究工作。E-mail:zhaoxinmdj@126.com.基金项目:国家自然科学基金资助项目(31200478);邯郸学院2018年度高层次科研项目育苗工程资助项目(2018301)。收稿日期:2020-03-18