Crops ›› 2017, Vol. 33 ›› Issue (3): 35-38.doi: 10.16035/j.issn.1001-7283.2017.03.007

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The Breeding of Jiyou 101 Haploid Inducer with High Frequency Parthenogenesis in Maize

Yue Yaohai,Lu Ming,Zhang Jianxin,Ma Yingjie,Zhou Xudong,Zhao Wanqing,Wang Shaoping,Zhang Zhijun,Liu Wenguo   

  1. Maize Research Institute,Jilin Academy of Agricultural Sciences,Gongzhuling 136100,Jilin,China
  • Received:2017-03-29 Revised:2017-04-26 Online:2017-06-15 Published:2018-08-26
  • Contact: Zhijun Zhang,Wenguo Liu

Abstract:

We introduced a maize inbred line (Jiyou 101) of haploid inducer with the high frequency of haploid inducer and good agronomic traits. A new maize inbred line of haploid inducer with the high frequency of haploid inducer was selected in the northeast ecological region from crossing by Y6 and Nongda No.1.

Key words: Maize, Maize inbred lines of haploid inducer, Breeding, Induction rate

Table 1

The percentage of haploid induced with different generations of Jiyou 101"

世代
Generation
来源
Pedigree
穗行
Ear row
单倍体数
Haploid number
测交粒数
Test cross kernel number
诱导率(%)
Percentage of haploid induced
S1 Y6×农大高诱1号 -5 24 583 4.12
Y6×农大高诱1号 -12 26 653 3.98
S2 Y6×农大高诱1号 -5-6 29 569 5.10
-12-4 24 487 4.93
S3 Y6×农大高诱1号 -5-6-2 62 625 9.92
-5-6-17 61 989 6.17
-5-6-23 73 768 9.51
-5-6-25 79 609 12.97
-5-6-31 60 713 8.42
-12-4-1 49 549 8.93
-12-4-13 48 821 5.85
-12-4-15 53 478 11.09
S4 Y6×农大高诱1号 -5-6-25-6 45 544 8.27
-5-6-25-14 40 498 8.03
-5-6-25-18 41 877 4.68
-5-6-25-29 72 657 10.96
-5-6-25-33 67 745 8.99
-5-6-25-47 46 871 5.28
-5-6-25-55 70 793 8.83
-5-6-25-59 32 699 4.58
-5-6-25-73 62 702 8.83
-12-4-15-7 37 435 8.51
-12-4-15-12 24 502 4.78
-12-4-15-15 48 802 5.99
-12-4-15-21 36 410 8.78
S5 Y6×农大高诱1号 -5-6-25-6-3 39 435 8.97
-5-6-25-29-8 60 546 10.99
-12-4-15-21-1 55 621 8.86
-12-4-15-21-3 41 508 8.07
S6 Y6×农大高诱1号 -5-6-25-29-8-1(吉诱101号)

Table 2

The differences of main characters among haploid induced lines"

诱导系
Maize induced line
诱导率(%)
Rate of haploid
induction
抗倒伏
Lodging
resistance
抗病性
Disease
resistance
熟期
Maturity
stage
株高(cm)
Plant height
植株颜色
Plant color
着色标记
Colour-labelled
吉诱101号Jiyou 101 10.99 中早熟 180 绿
农大高诱1号Nongda Gaoyou 1 4.03 不抗 较差 晚熟 220
Y6 12.65 较强 早熟 150 绿
Stock6 0.92 不抗 晚熟 185 绿

Table 3

General combining ability of the rate of haploid induction of Jiyou 101"

玉米自交系或群体
Maize inbred line or population
单倍体数
Number of haploid plant
测交子粒数
Testcross kernel number
诱导率(%)
Rate of haploid induction
syn695 135 1 532 8.81
JL-H1 220 2 547 8.64
PH4CV 248 1 823 13.60
丹y1 Dan y1 12 1 324 0.91
齐319 Qi 319 5 871 0.57
丹340 Dan 340 112 1 912 5.86
吉853 Ji 853 72 809 8.90
四-287 Si-287 70 840 8.33
4112 90 907 9.92
四-144 Si-144 98 1 002 9.78
PH6WC 115 1 129 10.19
郑58 Zheng 58 175 1 766 9.91
四-287×PH6WC Si-287×PH6WC 263 1 905 13.81
四-144×PH4CV Si-144×PH4CV 236 2 011 11.74
先玉335 Xianyu 335 283 2 312 12.24
郑单958 Zhengdan 958 182 1 823 9.98
平均Average 8.95
[1] Coe E . A line of maize with high haploid frequency. The American Naturalist, 1959,93:381-382.
doi: 10.1086/282098
[2] Lashermes P, Beckert M . Genetic control of maternal haploidy in maize (Zea mays L.) and selection of haploid inducing lines. Theoretical and Applied Genetics, 1988,76:405-410.
[3] 刘志增, 宋同明 . 玉米高频率孤雌生殖单倍体诱导系的选育与鉴定. 作物学报, 2000,26(5):570-574.
doi: 10.3321/j.issn:0496-3490.2000.05.009
[4] 才卓, 徐国良, 刘向辉 , 等. 玉米高频率单倍生殖诱导系吉高诱3号的选育. 玉米科学, 2007,15(1):1-4.
doi: 10.3969/j.issn.1005-0906.2007.01.001
[5] 姜龙, 王薪淇, 李向永 , 等. 爆裂玉米单倍体诱导和加倍方法的研究.作物杂志, 2015(3):52-56.
[6] 魏昌松, 许贵明, 田甫焕 . 玉米单倍体鉴定方法研究进展.作物杂志, 2014(6):16-20.
[7] Chase S S . Monoploids and monoploid-derivatives of maize (Zea mays L.). The Botanical Review, 1969,35:117-168.
doi: 10.1007/BF02858912
[8] 岳尧海, 张建新, 周旭东 , 等. 玉米单倍体田间自然杂交诱导效率初析.作物杂志, 2013(6):39-41.
doi: 10.3969/j.issn.1001-7283.2013.06.010
[9] 岳尧海, 张志军, 路明 , 等. 东北生态区玉米单倍体浸芽加倍效果的初探.作物杂志, 2012(5):114-117.
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