晾晒烟种质资源ISSR指纹图谱构建及遗传变异分析

覃剑峰; 何江; 陈涛; 覃旭; 崔明勇; 黄显雅; 金刚; 蒙瑶; 梁春

doi:10.19303/j.issn.1008-0384.2019.05.004

晾晒烟种质资源ISSR指纹图谱构建及遗传变异分析

doi: 10.19303/j.issn.1008-0384.2019.05.004

广西壮族自治区亚热带作物研究所, 广西南宁 530001

基金项目:

中国烟草总公司广西壮族自治区公司科技创新项目桂烟科[2014]3号

详细信息

作者简介:
覃剑峰(1979-), 男, 硕士, 助理研究员, 主要从事植物组织培养及栽培研究工作(Email: qinjianfengmail@163.com)

通讯作者:
何江(1989-), 男, 硕士, 助理研究员, 主要从事果树种质资源的收集与利用的研究(E-mail: 116823018@qq.com)

中图分类号: S323;S572
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- 被引次数: 0
出版历程
- 收稿日期: 2019-01-04
- 修回日期: 2019-03-18
- 刊出日期: 2019-05-28

ISSR Fingerprints and Genetic Variations of Sun-Cured Tobacco Germplasms

Guangxi Subtropical Crops Research Institute, Nanning, Guangxi 530001, China

摘要

摘要: 目的较为准确地揭示晾晒烟种质间的遗传关系，提高晾晒烟种质资源的利用率和育种效率。方法利用ISSR分子标记技术对36份晾晒烟种质资源进行遗传多样性分析。结果从100个ISSR引物中筛选出7条多态性好的引物，扩增出113个条带，其中91条多态性条带，多态性条带比例有80.5%；ISSR标记有效等位基因数（Ne）的平均值为1.64，Nei's基因多样性指数（H）的平均值为0.37，Shannon's信息指数（I）值的平均值为0.55，表明ISSR标记具有较高的多态性检测效率；聚类分析结果表明36份晾晒烟种质间的遗传相似性系数（GS）为0.74~0.91，品种间遗传多样性水平较低，以0.78处作为截值可以划分为5个组；数字指纹图谱可以较为有效地将供试材料进行区分。结论 ISSR标记适合用于构建晾晒烟的DNA指纹图谱，可以为晾晒烟的品种鉴定提供科学依据。
- 晾晒烟 /
- ISSR /
- 指纹图谱 /
- 遗传多样性
Abstract: Objective This study was aimed to accurately reveal the genetic relationship among sun-cured tobacco germplasms, and improve the utilization and breeding efficiency of sun-cured tobacco resources. Method Genetic diversity of 36 sun-cured tobacco germplasms was analyzed using ISSR. Result From the samples, 113 DNA bands were amplified with 7 polymorphic primers selected from 100 ISSR primers. Among them, 91 bands (80.5%) were polymorphic. The average effective number of alleles (Ne), Nei's gene diversity index (H), and Shannon's information index (I) of the ISSR markers were 1.64, 0.37, and 0.55, respectively, indicating a high detection efficacy. The UPGMA analysis showed a low diversity among the germplasms with the genetic similarity coefficients (GS) ranging from 0.74 to 0.91. With the new method, the germplasms were clustered into 5 groups at the level of 0.78.The digital fingerprints effectively distinguish the germplasms. Conclusion The ISSR markers chosen for the DNA fingerprints of 36 sun-cured tobacco germplasms were appropriate for the otherwise difficult task of differentiating and identifying those genetically closely related varieties.
- sun-cured tobacco /
- ISSR /
- fingerprint maps /
- genetic diversity

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图 1 引物809对36份样品的ISSR-PCR扩增结果

注：样品顺序同表 1。

Figure 1. ISSR-PCR amplifications by Primer 809 on 36 specimens with sample codes

Note:Sample order in Table 1.

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图 2 晾晒烟种质资源的UPGMA聚类分析

Figure 2. UPGMA dendrogram of sun-cured tobacco germplasms

下载: 全尺寸图片幻灯片

图 3 晾晒烟各种质的ISSR标记主坐标分析

注：A为平面图，B为三维图。1~36号材料编号同表 1。

Figure 3. Principal coordinate analysis with ISSR markers on sun-cured tobacco germplasms

Note:A.Three-dimensional graph, B.Planar graph.1-36 are the same as Table 1.

下载: 全尺寸图片幻灯片

表 1 供试晾晒烟材料

Table 1. Selected sun-cured tobacco germplasms

编号Code	名称Name	来源Collectionsite	类型Type
1	贵港土烟1号Guigang No. 1	广西贵港Guigang Guangxi	晒烟Sun-cured Tobacco
2	贵港土烟2号Guigang No. 2	广西贵港Guigang Guangxi	晒烟Sun-cured Tobacco
3	贵港土烟3号Guigang No.3	广西贵港Guigang Guangxi	晒烟Sun-cured Tobacco
4	横县土烟1号Hengxian No.1	广西横县Hengxian Guangxi	晒烟Sun-cured Tobacco
5	柳城土烟1号Liucheng No. 1	广西柳城Liucheng Guangxi	晒烟Sun-cured Tobacco
6	凌云土烟1号Lingyun No.1	广西凌云Lingyun Guangxi	晒烟Sun-cured Tobacco
7	全州土烟1号Quanzhou No. 1	广西全州Quanzhou Guangxi	晒烟Sun-cured Tobacco
8	三里烟Shanglin	广西上林Shanglin Guangxi	晒烟Sun-cured Tobacco
9	资源土烟1号Ziyuan No. 1	广西资源Ziyuan Guangxi	晒烟Sun-cured Tobacco
10	阳朔土烟1号Yangshuo No. 1	广西阳朔Yangshuo Guangxi	晒烟Sun-cured Tobacco
11	临桂土烟1号Lingui No. 1	广西临桂Lingui Guangxi	晒烟Sun-cured Tobacco
12	临桂土烟2号Lingui No. 2	广西临桂Lingui Guangxi	晒烟Sun-cured Tobacco
13	凌云土烟2号Lingyun No 2	广西凌云Lingyun Guangxi	晒烟Sun-cured Tobacco
14	凌云土烟3号Lingyun No 3	广西凌云Lingyun Guangxi	晒烟Sun-cured Tobacco
15	环江土烟3号Huanjiang No. 3	广西环江Huanjiang Guangxi	晒烟Sun-cured Tobacco
16	环江土烟1号Huanjiang No. 1	广西环江Huanjiang Guangxi	晒烟Sun-cured Tobacco
17	环江土烟2号Huanjiang No. 2	广西环江Huanjiang Guangxi	晒烟Sun-cured Tobacco
18	马山土烟1号Mashan No 1	广西马山Mashan Guangxi	晒烟Sun-cured Tobacco
19	横县土烟2号Hengxian No.2	广西横县Hengxian Guangxi	晒烟Sun-cured Tobacco
20	平果土烟2号Pingguo No.2	广西平果Pingguo Guangxi	晒烟Sun-cured Tobacco
21	平果土烟1号Pingguo No.1	广西平果Pingguo Guangxi	晒烟Sun-cured Tobacco
22	横县土烟3号Hengxian No.3	广西横县Hengxian Guangxi	晒烟Sun-cured Tobacco
23	凌云土烟4号Lingyun No.4	广西凌云Lingyun Guangxi	晒烟Sun-cured Tobacco
24	安太土烟1号Antai No.1	广西融水Rongshui Guangxi	晒烟Sun-cured Tobacco
25	安太土烟2号Antai No.2	广西融水RongshuiGuangxi	晒烟Sun-cured Tobacco
26	凌云土烟5号Lingyun No.5	广西凌云Lingyun Guangxi	晒烟Sun-cured Tobacco
27	环江土烟4号Huanjiang No.4	广西环江Huanjiang Guangxi	晒烟Sun-cured Tobacco
28	马山土烟2号Mashan No.2	广西马山Mashan Guangxi	晒烟Sun-cured Tobacco
29	平乐土烟1号Pingle No.1	广西平乐Pingle Guangxi	晒烟Sun-cured Tobacco
30	平乐土烟2号Pingle No.2	广西平乐Pingle Guangxi	晒烟Sun-cured Tobacco
31	河池土烟1号Hechi No.1	广西河池Hechi Guangxi	晒烟Sun-cured Tobacco
32	都安土烟1号Du′an No.1	广西都安Du′an Guangxi	晒烟Sun-cured Tobacco
33	都安土烟2号Du′an No.2	广西都安Du′an Guangxi	晒烟Sun-cured Tobacco
34	靖西土烟1号Jingxi No.1	广西靖西Jingxi Guangxi	晒烟Sun-cured Tobacco
35	德保土烟1号Debao No.1	广西德保Debao Guangxi	晒烟Sun-cured Tobacco
36	靖西土烟2号Jingxi No.2	广西靖西Jingxi Guangxi	晒烟Sun-cured Tobacco

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表 2 ISSR引物序列和扩增结果

Table 2. ISSR primer sequences and amplifications

引物编号No.Pri-mer	序列Primer sequences	多态性条带数Polymorphi-c bands	总条带数Total bands	多态性条带百分比The proportion of polymorphic bands/%
808	AGA GAG AGA GAG AGA GC	13	15	86.7
809	AGA GAG AGA GAG AGA GG	7	14	50.0
825	ACA CAC ACA CAC ACA CT	10	10	100
855	ACA CAC ACA CAC ACA CYT	23	24	95.8
856	ACA CAC ACA CAC ACA CYA	14	18	77.8
886	VDV CTC TCT CTC TCT CT	8	15	53.3
899	CAT GGT GTT GGT CAT TGT TCC A	16	17	94.1
平均数Mean	-	13	16.1	80.5
总数Total	-	91	113	-

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表 3 晾晒烟ISSR标记的多态性分析

Table 3. ISSR genetated banding patterns on sun-cured tobacco germplasms

引物编号No.Primer	有效等位基因数Effective number of alleles(Ne)	Nei′s基因多样性指数Nei′s gene divesity(H)	Shannon′s信息指数Shannon′s informaion index (I)
808	1.64	0.39	0.58
809	1.88	0.47	0.66
825	1.69	0.39	0.57
855	1.50	0.33	0.50
856	1.66	0.39	0.58
886	1.95	0.49	0.68
899	1.17	0.14	0.25
平均数Mean	1.64	0.37	0.55

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表 4 7条引物区分开的晾晒烟种质

Table 4. Sun-cured tobacco germplasms differentiated by using 7 primers

引物Primer	1	2	3	4	5	6	7	8	9	10	11	12	13	14	15	16	17	18	19	20	21	22	23	24	25	26	27	28	29	30	31	32	33	34	35	36
808	+	+			+																															+
809												+								+
825		+	+	+	+	+	+	+	+	+				+	+	+	+	+	+	+	+	+	+	+	+	+	+		+		+	+	+	+		+
855	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+	+
856			+	+		+	+	+	+		+		+	+	+	+	+	+	+	+					+	+		+	+	+	+	+				+
886	+	+			+	+	+	+								+																			+
899	+		+	+	+	+		+				+	+	+	+		+		+		+	+	+	+						+			+	+	+	+
注：1~36号材料编号同表 1，“+”表示该种质可被鉴定出来。 Note：1-36 are the same as Table 1, “+”said the germplasm could be identified.

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表 5 36份晾晒烟种质的ISSR数字指纹图谱

Table 5. ISSR fingerprints of 36 sun-cured tobacco germplasms

材料编号Code	808	809	825	855	856	886	899
1	000001100111010	11101101111111	1001111010	101010000100010101011101	101000101011101000	101011111111010	00000000000010100
2	000000011101010	11101101111111	1001111101	010101000100000000010101	101000101010101000	101010111101110	00000000000010000
3	100011100101100	11101101111111	1001111111	000001000100010100010101	101000011010001000	111110111111010	00010000000010100
4	100011100101100	11101011111111	0011011000	110000111100110000010101	101000101111101000	111110111111010	00000000000011000
5	100011100101100	11101011111111	1101011011	000000100011001100110101	101000101010101000	111010111111010	01000000000010010
6	000011100101100	11101011111111	1001010001	010000101100010000000101	101000100110101000	111111111101010	00000000001011000
7	100011100101100	11101011111111	1000011100	010000111100110100010101	111101011011001000	111110111111000	00000000000010000
8	100011100101100	11101011111111	0000011000	110000111100000000000011	101010001011101000	111010111111000	10001000000010000
9	111110000111111	11101011111111	0100011001	010000111101110100010101	101010001010101000	001110111101010	00000000000010000
10	100011100101100	11101011111111	0000011000	110000111100110100010001	101000111011001000	001010111101010	00000000000010000
11	100011000101100	11101011111111	1100000001	110000011100110100010101	101000111010101000	101110111101010	00000000000010000
12	100011100101100	11101111111111	0001000000	110000101101001100110001	101000111011001000	101110111111010	00100010000010000
13	100011100101100	11101011111111	1100011000	110000000000110100010101	101000111011011100	101110111101010	10100000000011010
14	100011100101100	11101011111111	1100001101	110000000100000100010101	101010001010001000	101110111101010	00100000100010000
15	100011100101100	11101011111111	1100001011	110000000001001010101101	101010001010001111	101110111101010	00001000000010010
16	000011100101100	11101011111111	0000001010	110000000110110100010101	101010001111111100	101110111111011	00000000000010000
17	100011100101100	11101011111111	1100001011	110000101100100100010001	101010111010101000	101110111111010	00000000001010000
18	100011100101100	11101011111111	0000001100	000000000000000000000101	101000111110101000	001111111101010	00000000000010000
19	100011100101100	11101011111111	0010001110	110001111100110100010101	101000111010001000	101111111101010	10000100100010000
20	100011100101100	00110011111110	0010001100	000000011101110100010001	101010111010001000	101111111101010	00000000000010000
21	100011100101100	11110011111111	1111101010	000000011100000100000001	101010111011001000	101110111101010	10001001100010000
22	100011100101100	11110011111111	1111101011	000001010001010101010101	101000111011001000	101110111101010	01100100000110000
23	100011100101100	11110011111111	1111111011	110001011001110101010101	101000111011001000	101110111101010	00010101011110000
24	100011100101100	11110011111111	1111001011	110001010111010000000001	101000111011001000	101110111101010	00000010000010000
25	100011100101100	11101011111111	1111111010	110001011110110100010001	101000001110001000	001010111101010	00000000000010000
26	100011100101100	11101011111111	0001111101	110001011000000000000001	101000000111101000	001111111101010	00000000000010000
27	100011100101100	11101011111111	1101001101	010001011101000000000001	101010111011001000	001111111111010	00000000000010000
28	100011100101100	11101011111111	1101101101	110000111000010000000001	101010111111111000	001111111111010	00000000000010000
29	100011100101100	11101011111111	0001101100	000000111010000000000001	101010111110001000	001111111111010	00000000000010000
30	100011100101100	11101011111111	1101111011	000000111010010100010001	101110000110001000	001111111101010	00000111011110000
31	100011100101100	11101011111111	1101111011	100000111010001001100101	101010111111001000	101111111101010	00000000000010000
32	100011100101100	11101011111111	1101111011	110000111000010101010101	101000111110111000	101111111101010	00000000000010000
33	100011100101100	11101011111111	0001101010	110000111000010101010111	101000111111111000	001010111101010	00000110000010000
34	100011100101100	11110011111111	0111111010	110000101010010011001111	101000111111111000	101010111101010	00010000000010000
35	100011100101100	11110011111111	0011111010	000000111000000101010111	101000111111111000	101010111111010	00000001001110000
36	100011100101100	11110011111111	1111111101	000000101000000101010101	101000111111001000	101010111101010	00000000000011101

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