[1]Largia M J V,Shilpha J,Pothiraj G,et al. Analysis of nuclear DNA content,genetic stability,Bacoside A quantity and antioxidant potential of long term in vitro grown germplasm lines of Bacopa monnieri (L.)[J]. Plant Cell Tissue and Organ Culture,2015,120(1):399-406.
[2]Leitch I J,Johnston E,Pellicer J,et al. Plant DNA C-values Database[DB/OL]. (2019-04-01)[2019-10-21]. https://cvalues.science.kew.org/.
[3]Dolezel J,Bartos J,Voglmayr H,et al. Nuclear DNA content and genome size of trout and human[J]. Cytometry A,2003,51(2):127-128.
[4]Levine R F,Bunn P A,Hazzard K C,et al. Flow cytometric analysis of megakaryocyte ploidy:comparison with Feulgen microdensitometry and discovery that 8N is the predominant ploidy class in guinea pig and monkey marrow[J]. Blood,1980,56(2):210-217.
[5]Dolezel J,Greilhuber J,Suda J. Estimation of nuclear DNA content in plants using flow cytometry[J]. Nature Protocols,2007,2(9):2233-2244.
[6]Teh B T,Lim K,Yong C H,et al. The draft genome of tropical fruit durian (Durio zibethinus)[J]. Nature Genetics,2017,49(11):1633-1641.
[7]邓果特,刘清波,蒋建雄,等. 五节芒基因组大小测定[J]. 植物遗传资源学报,2013,14(2):339-341.
[8]陈丙义,李金凤,霍恒志,等. 6种野生草莓基因组大小估算[J]. 果树学报,2015,32(91):51-56.
[9]马秋月,李淑顺,马骧,等. 基于流式细胞技术的两种槭属植物基因组大小测定[J]. 南京林业大学学报 (自然科学版),2018,42(5):201-205.
[10]都明理,徐娇,朱楚然,等. 3种柴胡染色体数目测定及基因组大小估测[J]. 江苏农业科学,2019,47(11):191-193.
[11]王利虎,吕晔,罗智,等. 流式细胞术估测枣染色体倍性和基因组大小方法的建立及应用[J]. 农业生物技术学报,2018,26(3):511-520.
[12]张健,王莹,马祥建,等. 基于流式细胞术的旱柳染色体倍性与基因组大小测定[J]. 江苏农业科学,2018,46(22):40-43.
[13]赖彪,吴传龙,秦永华,等. 流式细胞仪测定荔枝倍性和基因组大小的细胞核提取液筛选与应用[J]. 果树学报,2019,36(7):939-946.
[14]袁昌齐,束成杰,贾晓东,等. “一带一路”经济植物应用与开发(南亚篇)[J]. 中国野生植物资源,2016,35(2):1-2.
[15]邓衍明,叶晓青,李聪聪. α-萘乙酸对茉莉水培生根及根尖解剖结构的影响[J]. 江西农业学报,2012,24(2):35-37.
[16]Deng Y M,Sun X B,Gu C S,et al. Identification of pre-fertilization reproductive barriers and the underlying cytological mechanism in crosses among three petal-types of Jasminum sambac and their relevance to phylogenetic relationships[J]. PLoS One,2017,12(4):e0176026.
[17]王湘平,赖志明,苏金为. 茉莉染色体核型研究[J]. 福建农学院学报,1992,21(1):63-66.
[18]樊慧杰,柴智,殷福栋,等. 连翘基因组大小的流式细胞仪测定[J]. 时珍国医国药,2019,30(3):758-760.
[19]Suda J,Kyncl T,Jarolímová V. Genome size variation in Macaronesian angiosperms:forty percent of the Canarian endemic flora completed[J]. Plant Systematics and Evolution,2005,252(3/4):215-238.
[20]Loureiro J,Rodriguez E,Dolezel J,et al. Flow cytometric and microscopic analysis of the effect of tannic acid on plant nuclei and estimation of DNA content[J]. Annals of Botany,2006,98(3):515-527.
[21]Bennett M D,Leitch I J. Nuclear DNA amounts in angiosperms[J]. Annals of Botany,1995,76(2):113-176.
[22]Biémont C. Genome size evolution:within-species variation in genome size[J]. Heredity,2008,101(4):297-298.
[23]Grime J P,Mowforth M A. Variation in genome size-an ecological interpretation[J]. Nature,1982,299(5879):151-153.
[24]Hall S E,Dvorak W S,Johnston J S,et al. Flow cytometric analysis of DNA content for tropical and temperate new world pines[J]. Annals of Botany,2000,86(6):1081-1086.
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