鳜属鱼类性别决定及单性育种研究进展

doi:10.16378/j.cnki.1003-1111.25061

摘要
图/表
参考文献
相关文章 (15)

[1] 姜洁明,刘鹰,刘奇,等.硬骨鱼类性别分化过程的表观遗传机制研究进展[J].水产科学,2023,42(4):726-734.
[2] STRÜSSMANN C A, YAMAMOTO Y, HATTORI R S, et al. Where the ends meet:an overview of sex determination in atheriniform fishes[J]. Sexual Development,2021,15(1/2/3):80-92.
[3] IJIRI S, KANEKO H, KOBAYASHI T, et al. Sexual dimorphic expression of genes in gonads during early differentiation of a teleost fish, the Nile tilapia Oreochromis niloticus[J]. Biology of Reproduction,2008,78(2):333-341.
[4] WANG Y H, GUO W J, GONG G R, et al. Phenotypic and genetic analysis of sexual dimorphism in growth, feed intake and feed conversion efficiency in yellow catfish[J]. Aquaculture,2024,586:740767.
[5] ROBLEDO D, RIBAS L, CAL R, et al. Gene expression analysis at the onset of sex differentiation in turbot (Scophthalmus maximus)[J]. BMC Genomics,2015,16:973.
[6] MEI J, GUI J F. Genetic basis and biotechnological manipulation of sexual dimorphism and sex determination in fish[J]. Science China. Life Sciences,2015,58(2):124-136.
[7] 郑尧,王在照,陈家长.调控鱼类性腺分化基因的研究进展[J].水生生物学报,2015,39(4):798-810.
[8] 黄玉琴,徐佳乐,杨云生,等.军曹鱼性别决定与分化相关基因的鉴别及表达模式分析[J].渔业科学进展,2025,46(3):1-11.
[9] 张全启,王旭波,刘金相.半滑舌鳎性别决定和性别控制育种研究进展与展望[J].中国海洋大学学报(自然科学版),2019,49(10):43-53.
[10] 宋书莉.鳜类的物种界定、系统发育和生物地理以及少鳞鳜属群体遗传现状和演化过程的研究[D].上海:上海海洋大学,2017.
[11] 李松林,韩志豪,王小源,等.鳜养殖概况及摄食调控机制研究进展[J].水产学报,2021,45(10):1787-1795.
[12] 王晓清,李传武,谢中国,等.鳜雌雄生长差异的研究[J].淡水渔业,2006,36(3):34-37.
[13] 刘士琰,林嘉琪,李美惠,等.鳜鱼生殖生长调控与良种培育技术研究进展[J].中山大学学报(自然科学版中英文),2025,64(1):116-124.
[14] SUN C F, NIU Y, YE X, et al. Construction of a high-density linkage map and mapping of sex determination and growth-related loci in the mandarin fish (Siniperca chuatsi)[J]. BMC Genomics,2017,18(1):446.
[15] KITANO J, ANSAI S, TAKEHANA Y, et al. Diversity and convergence of sex-determination mechanisms in teleost fish[J]. Annual Review of Animal Biosciences,2024,12:233-259.
[16] BONDURIANSKY R, CHENOWETH S F. Intralocus sexual conflict[J]. Trends in Ecology & Evolution,2009,24(5):280-288.
[17] 张晓辉,朱扬玲,杜建明,等.斑鳜染色体核型研究[J].浙江农业科学,2007,48(2):226-227.
[18] 杨春,李达,徐光龙,等.鄱阳湖鳜鱼染色体组型的研究[J].江西农业学报,1999,11(1):52-55.
[19] CHENG W W, YU X M, YANG K, et al. Meiotic gynogenesis with heterologous sperm in the mandarin fish Siniperca chuatsi and evidence for female homogamety[J]. Aquaculture Research,2019,50(11):3286-3294.
[20] WEN M, ZHANG Y X, WANG S Y, et al. Characterization of sex locus and sex-specific sequences in the mandarin fishes[J]. Aquaculture,2022,561:738650.
[21] VICOSO B. Molecular and evolutionary dynamics of animal sex-chromosome turnover[J]. Nature Ecology & Evolution, 2019,3(12):1632-1641.
[22] HAN C, LIU S Y, PENG S H, et al. Assembly and analysis of Sinipercidae fish sex chromosomes reveals that a supergene drives sex chromosome origin and turnover[J]. Advanced Biotechnology,2025,3(2):17.
[23] 王浚宇.高温和甲基睾酮联合处理对尼罗罗非鱼性别分化的影响研究[D].泰安:山东农业大学,2020.
[24] 鲁子怡.高温和左炔诺孕酮诱导XX遗传型黄颡鱼雄性化的研究[D].武汉:华中农业大学,2023.
[25] 周敏.高温对尼罗罗非鱼性腺pre-mRNA可变剪接的影响及调控Kdm6bb第5内含子剪接的分子机制[D].泰安:山东农业大学,2022.
[26] YU Y,CHEN M, LU Z Y, et al. High-temperature stress will put the thermo-sensitive teleost yellow catfish (Tachysurus fulvidraco) in danger through reducing reproductivity[J]. Ecotoxicology and Environmental Safety,2022,239:113638.
[27] 薛晓文,陆宝悦,韩崇,等.硬骨鱼类性别调控对大刺鳅性逆转的启示[J].广东农业科学,2024,51(2):139-151.
[28] BHANDARI R K, ALAM M A, SOYANO K, et al. Induction of female-to-male sex change in the honeycomb grouper (Epinephelus merra) by 11-ketotestosterone treatments[J]. Zoological Science,2006,23(1):65-69.
[29] 戴生飞,孙丽娜,周林燕,等.鱼类性别可塑性的分子机制[J].中山大学学报(自然科学版中英文),2025,64(1):133-146.
[30] LIU S, XU P, LIU X G, et al. Production of neo-male mandarin fish Siniperca chuatsi by masculinization with orally administered 17α-methyltestosterone[J]. Aquaculture,2021,530:735904.
[31] ZHU Q Y, HAN C, LIU S Y, et al. Development and gene expression analysis of gonad during 17α-methyltestosterone-induced sex reversal in mandarin fish (Siniperca chuatsi)[J]. Aquaculture Reports,2022,23:101049.
[32] HUANG J J, LIU S Y, OUYANG H F, et al. Production of XX neo-male mandarin fish, Siniperca chuatsi, after sexual differentiation by oral administration of 17α-methyltestosterone[J]. Water Biology and Security,2023,2(1):100095.
[33] HAN C, LIU S Y, CHEN K C, et al. Pituitary transcriptome analysis of mandarin fish (Siniperca chuatsi) reveals dietary 17α-methyltestosterone disturbs hypothalamic-pituitary-gonadal axis by FSH signaling pathway[J]. Aquaculture Reports,2024,37:102218.
[34] LIU S Y, LI M H, HAN C, et al. Production of neofemale by 17β-estradiol and YY super-male breeding in mandarin fish (Siniperca chuatsi)[J]. Aquaculture,2024,581:740479.
[35] ZHU Q Y, HAN C, PENG C, et al. Identification of potential sex-related genes in Siniperca chuatsi[J]. Journal of Oceanology and Limnology,2021,39(4):1500-1512.
[36] PICARD M A, COSSEAU C, MOUAHID G, et al. The roles of Dmrt (Double sex/Male-abnormal-3 Related Transcription factor) genes in sex determination and differentiation mechanisms:ubiquity and diversity across the animal kingdom[J]. Comptes Rendus Biologies,2015,338(7):451-462.
[37] 徐东杰,谢熙,王蒙恩,等.Sox基因家族在水生动物性腺发育中的功能研究进展[J].生物学杂志,2022,39(3):97-102.
[38] 李法君,付春鹏,罗永巨.Dmrt基因在水生生物中的研究进展[J].水生生物学报,2016,40(5):1068-1077.
[39] MATSUDA M, NAGAHAMA Y, SHINOMIYA A, et al. DMY is a Y-specific DM-domain gene required for male development in the medaka fish[J]. Nature,2002,417(6888):559-563.
[40] HAN C, WANG C W, OUYANG H F, et al. Characterization of dmrts and their potential role in gonadal development of mandarin fish (Siniperca chuatsi)[J]. Aquaculture Reports,2021,21:100802.
[41] ZHU Y, CUI Z K, YANG Y M, et al. Expression analysis and characterization of dmrt2 in Chinese tongue sole (Cynoglossus semilaevis)[J]. Theriogenology,2019,138:1-8.
[42] LYU Q J, HU J, YANG X K, et al. Expression profiles of dmrts and foxls during gonadal development and sex reversal induced by 17α-methyltestosterone in the orange-spotted grouper[J]. General and Comparative Endocrinology,2019,274:26-36.
[43] 龙娟,郑树清,王晓双,等.TGF-β信号通路在鱼类性别决定与分化中的作用[J].水产学报,2020,44(1):166-177.
[44] LIU S Y, HAN C, HUANG J J, et al. Genome-wide identification, evolution and expression of TGF-β signaling pathway members in mandarin fish (Siniperca chuatsi)[J]. International Journal of Biological Macromolecules,2023,253:126949.
[45] LI X Y, GUI J F. Diverse and variable sex determination mechanisms in vertebrates[J]. Science China Life Sciences,2018,61(12):1503-1514.
[46] PFENNIG F, STANDKE A, GUTZEIT H O. The role of Amh signaling in teleost fish-multiple functions not restricted to the gonads[J]. General and Comparative Endocrinology,2015,223:87-107.
[47] HATTORI R S, MURAI Y, OURA M, et al. A Y-linked anti-Müllerian hormone duplication takes over a critical role in sex determination[J]. Proceedings of the National Academy of Sciences,2012,109(8):2955-2959.
[48] LI M H, SUN Y L, ZHAO J E, et al. A tandem duplicate of anti-müllerian hormone with a missense SNP on the Y chromosome is essential for male sex determination in Nile tilapia, Oreochromis niloticus[J]. PLoS Genetics,2015,11(11):e1005678.
[49] PAN Q W, FERON R, YANO A, et al. Identification of the master sex determining gene in northern pike (Esox lucius) reveals restricted sex chromosome differentiation[J]. PLoS Genetics,2019,15(8):e1008013.
[50] HATTORI R S, KUMAZAWA K, NAKAMOTO M, et al. Y-specific amh allele, amhy, is the master sex-determining gene in Japanese flounder Paralichthys olivaceus [J]. Frontiers in Genetics,2022,13:1007548.
[51] LI Y, CUI Y, YE X J, et al. Identification of the sex-linked region of Siniperca scherzeri and development of sex-specific markers[J]. Aquaculture,2025,600:742231.
[52] 黎佳颖.条纹光唇鱼性别二态性分析及激素诱导性逆转研究[D].上海:上海海洋大学,2024.
[53] 周云红,葛婉仪,夏星,等.鳜雌雄表型差异及性别相关标记筛选[J].安徽农业大学学报,2020,47(1):30-35.
[54] PARSCH J, ELLEGREN H. The evolutionary causes and consequences of sex-biased gene expression[J]. Nature Reviews Genetics, 2013,14(2):83-87.
[55] YUE M M, ZHAO J L, TANG S J, et al. Effects of estradiol and testosterone on the expression of growth-related genes in female and male Nile tilapia, Oreochromis niloticus[J]. Journal of the World Aquaculture Society,2018,49(1):216-228.
[56] 李骏珉,陈朝顺,赵光荣,等.翘嘴鳜雌雄鉴别法[J].动物学杂志,1979,14(3):34-35.
[57] 张奇斌,孙翰昌,胡广地,等.重庆市鲈鱼和鳜鱼产业发展现状与对策研究[J].中国渔业经济,2025,43(3):93-101.
[58] 刘佳南,王巍,吴立新,等.性逆转在硬骨鱼类中的研究现状及育种应用[J].农业生物技术学报,2025,33(1):200-207.
[59] 张梅,王洋.鳜鱼养殖现状及2024年养殖趋势[J].科学养鱼,2024(7):3-5.
[60] SENIOR A M, LIM J N, NAKAGAWA S. The fitness consequences of environmental sex reversal in fish:a quantitative review[J]. Biological Reviews of the Cambridge Philosophical Society, 2012,87(4):900-911.
[61] YANG C, CHEN L M, HUANG R, et al. Screening of genes related to sex determination and differentiation in mandarin fish (Siniperca chuatsi)[J]. International Journal of Molecular Sciences,2022,23(14):7692.
[62] HAN C, ZHU Q Y, LU H M, et al. Screening and characterization of sex-specific markers developed by a simple NGS method in mandarin fish (Siniperca chuatsi)[J]. Aquaculture,2020,527:735495.
[63] HAN C, ZHU Q Y, ZHOU X N, et al. A PCR-based genetic sex identification method in spotted mandarin fish (Siniperca scherzeri) and big eye mandarin fish (Siniperca kneri)[J]. Aquaculture Reports,2020,18:100552.
[64] YANG C, HUANG R, OU M, et al. A rapid method of sex-specific marker discovery based on NGS and determination of the XX/XY sex-determination system in Channa maculata[J]. Aquaculture,2020,528:735499.
[65] GUI J F, ZHU Z Y. Molecular basis and genetic improvement of economically important traits in aquaculture animals[J]. Chinese Science Bulletin,2012,57(15):1751-1760.
[66] 中山大学,广东梁氏水产种业有限公司.翘嘴鳜X染色体分子标记引物及其应用:202210919697.7 [P]. 2025-06-06.
[67] 中山大学,广东梁氏水产种业有限公司.翘嘴鳜雄性特异抗缪勒氏管激素AMHY基因及其应用: 202010293545.1[P].2020-08-28.
[68] 中国长江三峡集团有限公司中华鲟研究所.一种斑鳜雄性性别特异性分子标记和遗传性别鉴定方法: 202310794946.9[P].2024-04-02.
[69] 集美大学,福建省淡水水产研究所.一种鉴别斑鳜遗传性别的特异性分子标记及其应用:202411275853.6 [P]. 2024-10-25.
[70] 深圳市环境科学研究院,深圳市芦苇生态环境科技服务有限公司.一种波纹鳜遗传性别鉴定特异性DNA片段、引物组及方法:202311185084.6[P].2023-11-24.
[71] ZARDO É L,FORNARI D C, GIORA J, et al. Gonadal development period and sexual differentiation through histological analysis in Brycon orbignyanus (Valenciennes,1850) (Characiformes:Bryconidae)[J]. Aquaculture,2021,539:736636.
[72] PIFERRER F, DONALDSON E M. Uptake and clearance of exogenous estradiol-17β and testosterone during the early development of coho salmon (Oncorhynchus kisutch), including eggs, alevins and fry[J]. Fish Physiology and Biochemistry,1994,13(3):219-232.
[73] 张勇,李桂峰,韩林强,等.全雌翘嘴鳜“鼎鳜1号”[J].中国水产,2022(3):104-111.
[74] 廖海梅,田显志.全雌“鼎鳜1号” 和普通翘嘴鳜池塘养殖对比试验[J].科学养鱼,2023(1):39-40.
[75] 龚万达,宋文,钟林,等.全雌翘嘴鳜与自交翘嘴鳜的胚胎发育及仔幼鱼生长比较[J].大连海洋大学学报,2022,37(1):26-33.
[76] 高晓霞.全雌翘嘴鳜“鼎鳜壹号” 面世长速快20%可错峰上市[J].海洋与渔业,2020(6):39-40.
[77] LIU Q Z, WANG S, TANG C C, et al. The research advances in distant hybridization and gynogenesis in fish[J]. Reviews in Aquaculture,2025,17(1):e12972.
[78] 余锐,梁旭方,张进,等.翘嘴鳜人工雌核发育的初步研究[J].淡水渔业,2012,42(3):84-87.
[79] 李勇明,桂彬,黎阳雨,等.静水压诱导翘嘴鳜雌核发育的研究[J].水生生物学报,2022,46(5):735-740.
[80] WU P, ZENG Y, QIN Q B, et al. Formation and identification of artificial gynogenetic mandarin fish (Siniperca chuatsi) induced by inactivated sperm of largemouth bass (Micropterus salmoides)[J]. Aquaculture,2023,577:739969.
[81] 佚名.翘嘴鳜“武农1号” 成为国审鳜鱼新品种亩平均养殖利润超1.1万元[J].渔业致富指南,2023(6):3-6.
[82] 丁国栋,章海鑫,丁立云,等.全雌鳜“武农1号” 和翘嘴鳜“广清1号” 池塘养殖实验对比[J].江西水产科技,2024(2):13-15.