[1]周梦子,王会军,霍治国.极端高温天气对玉米产量的影响及其与大气环流和海温的关系[J].气候与环境研究,2017,22(2):134⁃148.
ZHOU M Z,WANG H J,HUO Z G.The influence of heat stress on maize yield and its association with atmospheric
general circulation and sea surface temperature[J].Climatic and Environmental Research,2017,22(2):134⁃148. [2]王占彪,王猛,尹小刚,等.气候变化背景下华北平原夏玉米各生育期水热时空变化特征[J].中国生态农业学报,2015,23(4):473⁃481.
WANG Z B,WANG M,YIN X G,et al.Spatiotemporal characteristics of heat and rainfall changes in summer
maize season under climate change in the North China Plain[J].Chinese Journal of Eco⁃Agriculture,2015,23 (4):473⁃481.
[3]于康珂,孙宁宁,詹静,等.高温胁迫对不同热敏型玉米品种雌雄穗生理特性的影响[J].玉米科学,2017,25 (4):84⁃91.
YU K K,SUN N N,ZHAN J,et al. Effect of high temperature stress on physiological characteristics of tassel and ear in different maize varieties[J].Journal of Maize Sciences,2017,25(4):84⁃91.
[4]降志兵,陶洪斌,吴拓,等.高温对玉米花粉活力的影响[J].中国农业大学学报,2016,21(3):25⁃29.
JIANG Z B,TAO H B,WU T,et al.Effects of high temperature on maize pollen viability[J].Journal of China Agricultural University,2016,21(3):25⁃29.
[5]张百富,张立军,樊金娟,等.玉米幼苗不同叶位花环结构及叶绿素含量研究[J].河南农业科学,2011,40(2):33⁃35.
ZHANG B F,ZHANG L J,FAN J J,et al.Comparative study on the kranz anatomy and chlorophyll content of
different leaves in maize seedlings[J].Journal of Henan Agricultural Sciences,2011,40(2):33⁃35.
[6]郑云普,徐明,王建书,等.玉米叶片气孔特征及气体交换过程对气候变暖的响应[J].作物学报,2015,41(4):601⁃612.
ZHENG Y P,XU M,WANG J S,et al.Responses of the stomatal traits and gas exchange of maize leaves to climate warming[J].Acta Agronomica Sinica,2015,41(4):601⁃612.
[7]张吉旺,董树亭,王空军,等.大田增温对夏玉米光合特性的影响[J].应用生态学报,2008,19(1):81⁃86.
ZHANG J W,DONG S T,WANG K J,et al.Effects of increasing field temperature on photosynthetic characteristics of summer maize[J].Chinese Journal of Applied Ecology,2008,19(1):81⁃86.
[8]赵龙飞,李潮海,刘天学,等.花期前后高温对不同基因型玉米光合特性及产量和品质的影响[J].中国农业科学,2012,45(23):4947⁃4958.
ZHAO L F,LI C H,LIU T X,et al. Effect of high temperature during flowering on photosynthetic characteristics and grain yield and quality of different genotypes of maize(Zea mays L.)[J].Scientia Agricultura Sinica,2012,45(23):4947⁃4958.
[9]赵丽晓,张萍,王若男,等.花后前期高温对玉米强弱势籽粒生长发育的影响[J].作物学报,2014,40(10):1839⁃1845.
ZHAO L X,ZHANG P,WANG R N,et al.Effect of high temperature after flowering on growth and development of
superior and inferior maize kernels[J].Acta Agronomica Sinica,2014,40(10):1839⁃1845.
[10]陈国清,沈鑫,蔡雪梅,等.灌浆结实期高温胁迫对糯玉米子粒产量和叶片光合特性的影响[J].玉米科学,2014,22(2):104⁃108.
CHEN G Q,SHEN X,CAI X M,et al.Effects of heat stress during grain filling on grain yield and leaf photosynthetic properties of waxy maize[J].Journal of Maize Sciences,2014,22(2):104⁃108.
[11]江曾明,何娟,莫蓓莘,等.植物miRNA参与调控作物农艺性状的研究进展[J].生物化学与生物物理进展,2019,46(3):221⁃237.
JIANG Z M,HE J,MO B X,et al.Advances in miRNAs regulating agricultural traits for crops[J].Progress in Biochemistry and Biophysics,2019,46(3):221⁃237.
[12]李潇凡,耿丹丹,毕瑜林,等.miRNA的非经典作用机制研究进展[J].生物技术通报,2022,38(12):1⁃10.
LI X F,GENG D D,BI Y L,et al.Research progress in unconventional miRNA functions[J].Biotechnology Bulletin,2022,38(12):1⁃10.
[13]江建霞,张俊英,李延莉,等.植物miRNA参与胁迫响应研究进展[J/OL].分子植物育种,2021 [2023⁃10⁃20].https://kns.cnki.net/kcms/detail/46.1068.S.20210806.1107.005.html.
JIANG J X,ZHANG J Y,LI Y L,et al.Research progress of plant microRNAs in stress response[J/OL].Molecular Plant Breeding,2021[2023⁃10⁃20].https://kns.cnki.net/kcms/detail/46.1068.S.20210806.1107.005.html.
[14]郑小宇,陈敏,李航,等.植物miRNA研究方法与药用植物miRNA研究进展[J].药学学报,2021,56(12):3460⁃3472.
ZHENG X Y,CHEN M,LI H,et al.Research methods of miRNA in plants and research progress of miRNA in medicinal plants[J].Acta Pharmaceutica Sinica,2021,56(12):3460⁃3472.
[15]刘洋,杨佳庆,余徐润,等. miRNA在调控植物种子发育及响应非生物胁迫中的研究进展[J].中国农学通报,2023,39(12):86⁃92.
LIU Y,YANG J Q,YU X R,et al.miRNA in regulating seed development and the response to abiotic stress in plant:A review[J].Chinese Agricultural Science Bulletin,2023,39(12):86⁃92.
[16]张宇,董国颂,张廷婷.木本植物miRNA研究进展[J].山东农业科学,2023,55(8):167⁃173.
ZHANG Y,DONG G S,ZHANG T T.Research progress of miRNA in woody plants[J].Shandong Agricultural Sciences,2023,55(8):167⁃173.
[17]王越,周婷,岳彩鹏,等.油菜盐胁迫响应miRNA及其靶基因鉴定[J].中国油料作物学报,2022,44(1):103⁃115.
WANG Y,ZHOU T,YUE C P,et al.Identification of miRNAs and their target genes in response to salt stress in Brassica napus[J].Chinese Journal of Oil Crop Sciences,2022,44(1):103⁃115.
[18]裴玲玲,刘欣.番茄响应非生物胁迫相关miRNA研究进展[J].中国蔬菜,2021(12):17⁃25.
PEI L L,LIU X. Research progress on miRNA related to tomato response to abiotic stress[J].China Vegetables,2021(12):17⁃25.
[19]张文英,高浩然,潘锐,等.大麦种子萌发lncRNAmiRNA-mRNA差异表达分析及ceRNA调控网络构建[J].长江大学学报( 自然科学版),2022,19(6):94⁃102.
ZHANG W Y,GAO H R,PAN R,et al.Differential expression analysis of lncRNA⁃miRNA⁃mRNA and construction of ceRNA regulatory network in barley seed germination[J].Journal of Yangtze University(Natural Science Edition),2022,19(6):94⁃102.
[20]韦懿,陈志辉,陈国兴,等.超量表达水稻miRNA 167a 调控株型的研究[J].分子植物育种,2011,9(4):390⁃396.
WEI Y,CHEN Z H,CHEN G X,et al.Study of overexpressing miRNA 167a to regulate the architecture in Oryza sativa[J].Molecular Plant Breeding,2011,9(4):390⁃396.
[21]赵亚帆,王家琪,静莉丽,等.化学调控剂对大穗型水稻籽粒激素和灌浆相关miRNA表达的影响[J].河南农业大学学报,2023,57(1):29⁃37.
ZHAO Y F,WANG J Q,JING L L,et al.Effects of chemical regulators on grain hormones and grain filling related miRNAs’ expression of large panicle rice varieties[J].Journal of Henan Agricultural University,2023,57(1):29⁃37. [22]于雅洁,李绍清.miRNA对水稻胁迫应答及产量调控影响的研究进展[J].湖北农业科学,2021,60(9):10⁃15.
YU Y J,LI S Q.Research progress on the effect of miRNA on rice stress response and yield regulation[J].Hubei Agricultural Sciences,2021,60(9):10⁃15.
[23]史建磊,宰文珊,苏世闻,等.番茄青枯病抗性相关miRNA的鉴定与表达分析[J].生物技术通报,2023,39(5):233⁃242.
SHI J L,ZAI W S,SU S W,et al.Identification and expression analysis of miRNA related to bacterial wilt resistance in tomato[J].Biotechnology Bulletin,2023,39(5):233⁃242.
[24]朱鹏锦,宋奇琦,谭秦亮,等.甘蔗耐寒相关miRNA的生物信息学分析及其靶基因预测[J].广西植物,2022,42(11):1840⁃1853.
ZHU P J,SONG Q Q,TAN Q L,et al.Bioinformatics analysis of microRNAs and prediction of target genes associated with cold tolerance in sugarcane[J].Guihaia,2022,42(11):1840⁃1853.
[25]李洪振,宋金鹏,刘东升,等.小麦miRNA研究进展[J].山东农业科学,2016,48(6):147⁃151.
LI H Z,SONG J P,LIU D S,et al.Research progress of miRNA in wheat[J].Shandong Agricultural Sciences,2016,48(6):147⁃151.
[26]张秀妍,徐妙云,郑红艳,等.盐胁迫下水稻体内miRNA表达谱分析[J].中国农业科技导报,2020,22 (12):10⁃19.
ZHANG X Y,XU M Y,ZHENG H Y,et al.Analysis of miRNA expression profiles in rice under salt stress[J].Journal of Agricultural Science and Technology,2020,22(12):10⁃19.
[27]秦永田,陈黎霞,汤继华,等.玉米苗期根汞胁迫响应中miRNA的鉴定及初步验证[J].作物学报,2022,48 (12):3018⁃3028.
QIN Y T,CHEN L X,TANG J H,et al.Identification and validation of miRNA involved in mercury stress response in maize seedling roots[J].Acta Agronomica Sinica,2022,48(12):3018⁃3028.
[28]吴斌,马立平,张眉,等.玉米粗缩病抗性相关miRNA 的筛选[J].山东农业科学,2020,52(10):151⁃156.
WU B,MA L P,ZHANG M,et al. Screening of miRNAs related to resistance of maize rough dwarf[J].Shandong Agricultural Sciences,2020,52(10) :151⁃156.
[29]唐琦.玉米根系中响应干旱胁迫的miRNA鉴定及其与靶基因调控模式初探[D].成都:四川农业大学,2019.
TANG Q.Identification of response miRNA and preliminary study on the regulation pattern between miRNA and target in maize root under drought stress[D]. Chengdu:Sichuan Agricultural University,2019.
[30]王琪月,孟淑君,张柯,等.玉米雌穗发育杂种优势相关miRNA 的研究[J].作物学报,2018,44(6):796⁃813.
WANG Q Y,MENG S J,ZHANG K,et al.Investigation of maize miRNA involved in developing⁃ear heterosis[J].Acta Agronomica Sinica,2018,44(6):796⁃813.
[31]孟红绪.纹枯病菌致病力相关milRNAs的鉴定及其对玉米靶基因的调控[D].泰安:山东农业大学,2021.
MENG H X.Identification of milRNAs related to pathogenicity of Rhizoctonia solani and its regulation on maize target genes[D].Taian:Shandong Agricultural University,2021.
[32]江曾明.玉米低磷胁迫响应miRNA及其靶基因的鉴定与功能研究[D].深圳:深圳大学,2019.
JIANG Z M.Identification and function of miRNA and its target genes in response to low phosphorus stress in maize[D].Shenzhen:Shenzhen University,2019.
[33]胡玉梅. MicroRNA408参与玉米适应盐胁迫的分子机制研究[D].北京:中国农业科学院,2021.
HU Y M.MicroRNA408 participates in the molecular mechanism of maize adaptation to salt stress[D].Beijing:Chinese Academy of Agricultural Sciences,2021.
[34]王晓静,王涛,杨凯,等.PEG和NaCl胁迫下毛竹萌发种子的MicroRNAs表达谱分析[J].林业科学研究,2023,36(2):107⁃118.
WANG X J,WANG T,YANG K,et al.Identification of microRNAs during seed germination and its response to PEG and NaCl stresses[J].Forest Research,2023,36(2):107⁃118.
[35]张玉叶.甘蔗受黑穗病菌胁迫下microRNA差异表达及其靶基因功能分析[D].福州:福建农林大学,2015.
ZHANG Y Y.Differentially expressed microRNAs in sugarcane challenged by Sporisorium scitamineum and their target gene function identification[D].Fuzhou:Fujian Agriculture and Forestry University,2015.
[36]吴丹丹,陈永坤,杨宇,等.小桐子半胱氨酸蛋白酶家族和相应miRNAs的鉴定及其对低温锻炼的响应[J].植物学报,2021,56(5):544⁃558.
WU D D,CHEN Y K,YANG Y,et al.Identification of the cysteine protease family and corresponding miRNAs in Jatropha curcas and their response to chill⁃hardening[J].Chinese Bulletin of Botany,2021,56(5):544⁃558.
[37]郎雅琴,翟晓巧,曹喜兵,等.泡桐NLR基因家族分析及其对植原体的响应[J/OL].西南林业大学学报,2023[2023⁃10⁃20].https://kns.cnki.net/kcms/detail/53.1218.s.20230327.1855.010.html.
LANG Y Q,ZHAI X Q,CAO X B,et al.Analysis of Paulownia NLR gene family and their responses to phytoplasmas[J/OL].Journal of Southwest Forestry University,2023[2023⁃10⁃20].https://kns.cnki.net/kcms/detail/53.1218.s.20230327.1855.010.html.
[38]李世鹏,董海潇,苏胜忠,等.玉米自交系苗期冷胁迫miRNA表达谱研究[J].玉米科学,2022,30(2):51⁃57.
LI S P,DONG H X,SU S Z,et al.Study on miRNA expression profile of maize seedlings under cold stress[J].Journal of Maize Sciences,2022,30(2):51⁃57.
[39]王杏茹,李文静,陈冰星,等.蕹菜耐受长时间高温后的miRNA分析[J].园艺学报,2019,46(3):486⁃498.
WANG X R,LI W J,CHEN B X,et al.Analysis of miRNA in water spinach(Ipomoea aquatica) under
long⁃time high temperature[J].Acta Horticulturae Sinica,2019,46(3):486⁃498.
[40]谢凯彬.水稻抗逆相关基因与miRNA的分子进化及OsCORA基因的抗寒功能分析[D].南京:南京师范大学,2014.
XIE K B.Molecular evolution of stress resistance related genes and miRNAs in rice and analysis of cold resistance function of OsCORA gene[D].Nanjing:Nanjing Normal University,2014.
[41]王立博.玉米应答低磷胁迫相关miRNA研究[D].成都:四川农业大学,2013.
WANG L B.Study of miRNA respond to low phosphorus stress in maize[D].Chengdu:Sichuan Agricultural University,2013.
[42]刘立盘,涂圣勇,杨爱红,等.miRNA及其靶基因调控植物根系生长发育的研究进展[J].中国农业大学学报,2022,27(11):47⁃59.
LIU L P,TU S Y,YANG A H,et al.Research progress of miRNA and its target genes regulating plant root
growth and development[J].Journal of China Agricultural University,2022,27(11):47⁃59.
[43]张家驹,于洁,李明娜,等.蒺藜苜蓿lncRNA167及其剪切产物miR167c的鉴定和功能分析[J].草业学报,2022,31(1):164⁃180.
ZHANG J J,YU J,LI M N,et al.Identification and functional analysis of lncRNA167 and its cleavage product miR167c in Medicago truncatula[J].Acta Prataculturae Sinica,2022,31(1):164⁃180.
[44]李宁,王娟,王柏柯,等.番茄microRNA调控生长发育及逆境响应的研究进展[J].新疆农业科学,2021,58 (3):474⁃482.
LI N,WANG J,WANG B K,et al.Advances in tomato(Solanum lycopersicum) microRNA regulation of growth and adversity response[J].Xinjiang Agricultural Sciences,2021,58(3):474⁃482.
[45]郭茜茜,吴鹏,黄思远,等.植物miRNA482功能的研究进展[J/OL].分子植物育种,2022[2023⁃10⁃20].https://kns.cnki.net/kcms/detail/46.1068.S.20220906.1122.002.html.
GUO Q Q,WU P,HUANG S Y,et al.Research progress on the function of plant miR482[J/OL].Molecular Plant Breeding,2022[2023⁃10⁃20].https://kns.cnki.net/kcms/detail/46.1068.S.20220906.1122.002.html.
[46]樊仔慧,黄慧梅,王幼宁,等.大豆miR482家族的生物信息学分析[J].分子植物育种,2021,19(6):1769⁃1777.
FAN Z H,HUANG H M,WANG Y N,et al.Bioinformatics analysis of miR482 family in soybean[J].MolecularPlant Breeding,2021,19(6) :1769⁃1777.
[47]杨春霞,胥猛,王明庥,等.植物中miR160/miR167/miR390家族及其靶基因研究进展[J].南京林业大学学报(自然科学版),2014,38(3):155⁃159.
YANG C X,XU M,WANG M X,et al.Advance on miR160/miR167/miR390 family and its target genes in plants[J].Journal of Nanjing Forestry University(Natural Sciences Edition),2014,38(3):155⁃159.
[48]赵思航,刘昊东,徐渴,等.小麦中MIR160基因家族的生物信息学分析及靶基因鉴定[J].分子植物育种,2023,21(1):27⁃35.
ZHAO S H,LIU H D,XU K,et al.Bioinformatics analysis and target gene identification of MIR160 gene family in wheat[J].Molecular Plant Breeding,2023,21 (1):27⁃35.
[49]李严曼,蔡秀秀,朱磊,等.miR160a与其靶基因在西瓜嫁接苗中参与抵御低温胁迫[J].中国生物化学与分子生物学报,2022,38(12):1703⁃1713.
LI Y M,CAI X X,ZHU L,et al.The roles of miR160a and its target genes in grafted watermelon seedlings under chilling stress[J].Chinese Journal of Biochemistry and Molecular Biology,2022,38(12):1703⁃1713.
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