Xinjiang Agricultural Sciences ›› 2022, Vol. 59 ›› Issue (12): 2924-2932.DOI: 10.6048/j.issn.1001-4330.2022.12.007
• Crop Genetics and Breeding · Cultivation Physiology · Germplasm Resources • Previous Articles Next Articles
LU Zifeng1(), SHI Xiaolei1, LI Yushan1, CUI Yanhua2, XIAN He2, YAN Yongliang1, ZHANG Jinbo1, GAO Haifeng3, CONG Hua1()
Received:
2021-12-20
Online:
2022-12-20
Published:
2023-01-30
Correspondence author:
CONG Hua
Supported by:
路子峰1(), 时晓磊1, 李玉姗1, 崔燕华2, 仙鹤2, 严勇亮1, 张金波1, 高海峰3, 丛花1()
通讯作者:
丛花
作者简介:
路子峰(1986-),男,河南辉县人,副研究员,研究方向为农作物种质资源创新利用,(E-mail)luzifeng712@126.com
基金资助:
CLC Number:
LU Zifeng, SHI Xiaolei, LI Yushan, CUI Yanhua, XIAN He, YAN Yongliang, ZHANG Jinbo, GAO Haifeng, CONG Hua. Molecular Detection of Three Yr Genes in 153 Winter Wheat Varieties from Xinjiang[J]. Xinjiang Agricultural Sciences, 2022, 59(12): 2924-2932.
路子峰, 时晓磊, 李玉姗, 崔燕华, 仙鹤, 严勇亮, 张金波, 高海峰, 丛花. 153份新疆冬小麦品种3个条锈病抗性基因的分子检测[J]. 新疆农业科学, 2022, 59(12): 2924-2932.
Add to citation manager EndNote|Ris|BibTeX
URL: http://www.xjnykx.com/EN/10.6048/j.issn.1001-4330.2022.12.007
目标基因 Target gene | 引物名称 Primername | 引物序列(5’-3’) Primer sequence(5’-3’) | 退火温度 Annealing temperature (℃) | 参考文献 Reference |
---|---|---|---|---|
Yr 9 | Yr 9-F | AAGCACTACGAAAATATGAC | 53℃ | [ |
Yr 9-R | TCTTAAGGGGTGTTATCATA | |||
Yr 26 | Yr 26-F | TGGCGCCATGATTGCATTATCTTC | 58℃ | |
Yr 26-R | GGTTGCTGAAGAACCTTATTTAGG | |||
Yr Tp1 | Yr Tp1-F | CGTCGAAAACCGTACACTCTCC | 58℃ | |
Yr Tp1-R | GCGAAACAGAATAGCCCTGATG |
Table 1 Primer sequences
目标基因 Target gene | 引物名称 Primername | 引物序列(5’-3’) Primer sequence(5’-3’) | 退火温度 Annealing temperature (℃) | 参考文献 Reference |
---|---|---|---|---|
Yr 9 | Yr 9-F | AAGCACTACGAAAATATGAC | 53℃ | [ |
Yr 9-R | TCTTAAGGGGTGTTATCATA | |||
Yr 26 | Yr 26-F | TGGCGCCATGATTGCATTATCTTC | 58℃ | |
Yr 26-R | GGTTGCTGAAGAACCTTATTTAGG | |||
Yr Tp1 | Yr Tp1-F | CGTCGAAAACCGTACACTCTCC | 58℃ | |
Yr Tp1-R | GCGAAACAGAATAGCCCTGATG |
Fig.1 Amplication forYr 9gene detection Note:M: Trans 100bp;1:Shannong 20;2:ddH2O;3:Red Spike with White Grain;4:Awnless;5:White Spike with White Grain;6:White Winter Wheat(Shanshan);7:Winter Wheat with White Awn;8:Vajazzle;9:Early maturing Winter Wheat;10:Altai Winter Wheat;11:Red Winter Wheat(Hejing);12:White Winter Wheat in South Xinjiang;13:Red Winter Wheat(Hami);14:Witer Wheat in South XinJiang;15:Melowassi;16:Black Winter Wheat;17:White Winter Wheat(Kuqa);18:Navathiran;19:Yanqi Winter Wheat;20:White winter wheat(Xinhe);21:Reyimuxia;22:Lavaderan;23:Soil Wheat;24:Xindong 1;25:Xindong 2;26:Xindong 4;27:Xindong 7;28:Xindong 2;29:Xindong 29;30:Xindong 35;31:Xindong 46;32:Xindong 49;33:Xindong 50;34:Xindong 52
Fig.2 Amplication for Yr26 gene detection Note:M: Trans 100bp;1:Shannong 20;2:ddH2O;3: Small White Winter Wheat;4:Red Winter Wheat(Manas);5:Red Spike Grain;6:Red Winter Wheat(Turpan);7:Red Spike with White Grain(Turpan);8:Vajazzle;9:Yangisar Red Winter Wheat;10:White Spike with White Grain;11:White Winter Wheat;12:Red Winter Wheat(Hejing);13:Red Winter Wheat(Yanqi);14:Kuzir Kuzig;15:Red Winter Wheat(Luntai);16:Melowassi(Korla);17:Akgusge;18:White Winter Wheat(Awati);19:White Spike Early Maturing Winter Wheat;20:White Winter Wheat(Yopurga county);21:Black Winter Wheat(Hotan);22:Early Maturing Winter Wheat;23:Xindong 5;24:Xindong 1;25:Xindong 2;26:Xindong 4;27:Xindong 22;28:Xindong 27;29:Xindong 28;30:Xindong 32 ;31:Xindong 33 ;32:Xindong 35;33:Xindong 41;34:Xindong 49
Fig.3 Amplication for YrTp1 gene detection Note:M: Trans 100bp;1:1:ShanNong 20;2:ddH2O;3: White Winter Wheat(Changji);4:Awnless Wheat;5:White Winter Wheat;6:Small White Winter Wheat;7:Red Winter Wheat(Hejing);8:Red Winter Wheat(Yanqi);9:Kuzir Kuzig;10:Baliba;11:Red Winter Wheat(korla);12:Winter Wheat(Luntai);13:Black Winter Wheat(kuqa);14:White Winter Wheat(Xinhe);15:Red Winter Wheat(Wushi County);16:Harek;17:Black Winter Wheat(Moyu);18:Kalkuzygan;19:Early Maturing Winter Wheat;20:Kadong 2;21:Xindong 1;22:Xindong 5;23:Xindong 7;24:Xindong 10;25:Xindong 11;26:Badong 1;27:Xindong 27;28:Xindong 29;29:Xindong 32;30:Xindong 33;31:Xindong 35;32:Xindong 49;33:Xindong 50;34:Xindong 52
编号 Code | 品种名 Cultivar name | 来源 Origin | Yr 9 | Yr 26 | Yr Tp1 | 编号 Code | 品种名 Cultivar name | 来源 Origin | Yr 9 | Yr 26 | Yr Tp1 |
---|---|---|---|---|---|---|---|---|---|---|---|
1 | 白冬麦 | 乌鲁木齐 | + | + | + | 11 | 红冬麦 | 阜康 | + | + | + |
2 | 红冬麦 | 昌吉 | + | + | + | 12 | 白冬麦 | 呼图壁 | + | + | + |
3 | 白冬麦 | 昌吉 | + | + | + | 13 | 小白冬麦 | 呼图壁 | + | + | - |
4 | 红壳冬麦 | 昌吉 | + | + | + | 14 | 红壳小白冬麦 | 玛纳斯 | + | + | + |
5 | 白冬麦 | 昌吉 | + | + | + | 15 | 青心兰麦 | 玛纳斯 | + | + | + |
6 | 白冬麦 | 昌吉 | + | + | + | 16 | 小白冬麦 | 玛纳斯 | + | + | + |
7 | 红壳白粒红冬麦 | 米泉 | + | + | + | 17 | 小白冬麦 | 玛纳斯 | + | - | + |
8 | 无芒麦 | 米泉 | + | + | + | 18 | 红冬麦 | 玛纳斯 | + | + | + |
9 | 红冬麦 | 奇台 | + | + | + | 19 | 红穗粒 | 吐鲁番 | - | + | + |
10 | 白冬麦 | 阜康 | + | + | + | 20 | 红冬麦 | 吐鲁番 | + | + | + |
Table 2 Wheat cultivars tested and results of molecular detection
编号 Code | 品种名 Cultivar name | 来源 Origin | Yr 9 | Yr 26 | Yr Tp1 | 编号 Code | 品种名 Cultivar name | 来源 Origin | Yr 9 | Yr 26 | Yr Tp1 |
---|---|---|---|---|---|---|---|---|---|---|---|
1 | 白冬麦 | 乌鲁木齐 | + | + | + | 11 | 红冬麦 | 阜康 | + | + | + |
2 | 红冬麦 | 昌吉 | + | + | + | 12 | 白冬麦 | 呼图壁 | + | + | + |
3 | 白冬麦 | 昌吉 | + | + | + | 13 | 小白冬麦 | 呼图壁 | + | + | - |
4 | 红壳冬麦 | 昌吉 | + | + | + | 14 | 红壳小白冬麦 | 玛纳斯 | + | + | + |
5 | 白冬麦 | 昌吉 | + | + | + | 15 | 青心兰麦 | 玛纳斯 | + | + | + |
6 | 白冬麦 | 昌吉 | + | + | + | 16 | 小白冬麦 | 玛纳斯 | + | + | + |
7 | 红壳白粒红冬麦 | 米泉 | + | + | + | 17 | 小白冬麦 | 玛纳斯 | + | - | + |
8 | 无芒麦 | 米泉 | + | + | + | 18 | 红冬麦 | 玛纳斯 | + | + | + |
9 | 红冬麦 | 奇台 | + | + | + | 19 | 红穗粒 | 吐鲁番 | - | + | + |
10 | 白冬麦 | 阜康 | + | + | + | 20 | 红冬麦 | 吐鲁番 | + | + | + |
编号 Code | 品种名 Cultivar name | 来源 Origin | Yr 9 | Yr 26 | Yr Tp1 | 编号 Code | 品种名 Cultivar name | 来源 Origin | Yr 9 | Yr 26 | Yr Tp1 |
---|---|---|---|---|---|---|---|---|---|---|---|
21 | 红穗白粒 | 吐鲁番 | + | + | 65 | 梁山冬麦 | 沙雅 | + | + | + | |
22 | 红穗白粒 | 吐鲁番 | + | + | + | 66 | 沙雅冬麦 | 沙雅 | + | + | + |
23 | 白穗白粒 | 吐鲁番 | + | + | + | 67 | 尉刀小麦 | 沙雅 | + | + | + |
24 | 白冬麦 | 鄯善 | + | + | + | 68 | 红冬麦 | 温宿 | + | + | + |
25 | 白芒冬麦 | 哈密 | + | + | 69 | 红冬麦 | 阿克苏 | + | + | + | |
26 | 金包银 | 哈密 | + | + | + | 70 | 红冬麦 | 阿克苏 | + | + | + |
27 | 红壳冬麦 | 哈密 | + | + | 71 | 红冬麦 | 阿克苏 | + | + | + | |
28 | 红冬麦 | 哈密 | + | + | + | 72 | 黑冬麦 | 阿瓦提 | + | + | |
29 | 白冬麦 | 哈密 | + | + | + | 73 | 沙雅冬麦 | 阿瓦提 | + | + | + |
30 | 红冬麦 | 塔城 | + | + | + | 74 | 白冬麦 | 阿瓦提 | + | ||
31 | 白冬麦 | 沙湾 | + | + | + | 75 | 红冬麦 | 乌什 | + | + | + |
32 | 小冬麦 | 沙湾 | + | + | + | 76 | 白冬麦 | 伽师 | + | + | |
33 | 冬麦 | 乌苏 | + | + | + | 77 | 哈热克 | 伽师 | + | + | + |
34 | 早熟冬麦 | 布尔津 | + | + | 78 | 吧子条播 | 伽师 | + | + | + | |
35 | 阿尔泰冬麦 | 阿勒泰 | + | + | + | 79 | 白冬麦 | 伽师 | + | + | + |
36 | 无芒 | 伊犁 | + | + | + | 80 | 白冬麦 | 伽师 | + | + | + |
37 | 红冬麦 | 和静 | + | + | + | 81 | 黑冬麦 | 伽师 | + | + | |
38 | 红冬麦 | 和静 | + | + | 82 | 白冬麦 | 疏附 | + | + | + | |
39 | 焉耆冬麦 | 焉耆 | + | + | 83 | 红冬麦 | 疏附 | + | + | + | |
40 | 南疆白冬麦 | 焉耆 | + | + | 84 | 阿克不大衣 | 疏勒 | + | + | + | |
41 | 红冬麦 | 焉耆 | + | + | + | 85 | 可孜不大衣 | 疏勒 | + | + | + |
42 | 南疆冬麦 | 焉耆 | + | + | + | 86 | 红冬麦 | 疏勒 | + | + | + |
43 | 库孜尔库孜格 | 库尔勒 | + | + | + | 87 | 土种麦 | 疏勒 | + | + | |
44 | 麦洛瓦西 | 库尔勒 | + | + | + | 88 | 白冬麦 | 疏勒 | + | + | + |
45 | 麦洛瓦西 | 库尔勒 | + | + | + | 89 | 阿伯格其力克 | 疏勒 | + | + | |
46 | 阿克古斯格 | 库尔勒 | + | + | + | 90 | 白冬麦 | 疏勒 | + | + | + |
47 | 阿克古斯格 | 库尔勒 | + | + | + | 91 | 黑冬麦 | 疏勒 | + | + | |
48 | 河西巴克红麦 | 库尔勒 | + | + | + | 92 | 红皮红冬麦 | 疏勒 | + | + | + |
49 | 阳霞红冬麦 | 库尔勒 | + | + | 93 | 白冬麦 | 疏勒 | + | + | + | |
50 | 巴利巴式 | 库尔勒 | + | + | + | 94 | 白壳白粒红心冬麦 | 喀什 | + | + | + |
51 | 阿克库孜盖 | 库尔勒 | + | + | 95 | 白冬麦 | 喀什 | + | + | + | |
52 | 红冬麦 | 库尔勒 | + | + | + | 96 | 哈热克巴斯曼 | 喀什 | + | + | + |
53 | 白冬麦 | 若羌 | + | + | 97 | 安迪然冬麦 | 喀什 | + | |||
54 | 冬麦 | 若羌 | + | + | + | 98 | 乌恰白麦 | 乌恰 | + | + | + |
55 | 冬麦 | 轮台 | + | + | + | 99 | 麦盖提白冬麦 | 麦盖提 | + | + | |
56 | 红冬麦 | 轮台 | + | + | 100 | 白粒早熟 | 莎车 | + | + | ||
57 | 买洛瓦西 | 库车 | + | 101 | 白晚冬麦 | 莎车 | + | + | + | ||
58 | 黑冬麦 | 库车 | + | + | + | 102 | 白冬麦 | 莎车 | + | + | |
59 | 白冬麦 | 库车 | + | + | + | 103 | 白晚冬麦 | 莎车 | + | + | + |
60 | 纳瓦提然 | 新和 | + | + | + | 104 | 红芒早 | 莎车 | + | + | |
61 | 白冬麦 | 新和 | + | + | + | 105 | 白穗早熟冬麦 | 莎车 | + | + | |
62 | 白冬麦 | 新和 | + | + | + | 106 | 白冬麦 | 莎车 | + | + | + |
63 | 热衣木夏 | 新和 | + | + | + | 107 | 黑穗麦 | 岳普湖 | + | + | + |
64 | 拉瓦得朗 | 沙雅 | + | + | + | 108 | 白冬麦 | 岳普湖 | + |
Table 2 Wheat cultivars tested and results of molecular detection
编号 Code | 品种名 Cultivar name | 来源 Origin | Yr 9 | Yr 26 | Yr Tp1 | 编号 Code | 品种名 Cultivar name | 来源 Origin | Yr 9 | Yr 26 | Yr Tp1 |
---|---|---|---|---|---|---|---|---|---|---|---|
21 | 红穗白粒 | 吐鲁番 | + | + | 65 | 梁山冬麦 | 沙雅 | + | + | + | |
22 | 红穗白粒 | 吐鲁番 | + | + | + | 66 | 沙雅冬麦 | 沙雅 | + | + | + |
23 | 白穗白粒 | 吐鲁番 | + | + | + | 67 | 尉刀小麦 | 沙雅 | + | + | + |
24 | 白冬麦 | 鄯善 | + | + | + | 68 | 红冬麦 | 温宿 | + | + | + |
25 | 白芒冬麦 | 哈密 | + | + | 69 | 红冬麦 | 阿克苏 | + | + | + | |
26 | 金包银 | 哈密 | + | + | + | 70 | 红冬麦 | 阿克苏 | + | + | + |
27 | 红壳冬麦 | 哈密 | + | + | 71 | 红冬麦 | 阿克苏 | + | + | + | |
28 | 红冬麦 | 哈密 | + | + | + | 72 | 黑冬麦 | 阿瓦提 | + | + | |
29 | 白冬麦 | 哈密 | + | + | + | 73 | 沙雅冬麦 | 阿瓦提 | + | + | + |
30 | 红冬麦 | 塔城 | + | + | + | 74 | 白冬麦 | 阿瓦提 | + | ||
31 | 白冬麦 | 沙湾 | + | + | + | 75 | 红冬麦 | 乌什 | + | + | + |
32 | 小冬麦 | 沙湾 | + | + | + | 76 | 白冬麦 | 伽师 | + | + | |
33 | 冬麦 | 乌苏 | + | + | + | 77 | 哈热克 | 伽师 | + | + | + |
34 | 早熟冬麦 | 布尔津 | + | + | 78 | 吧子条播 | 伽师 | + | + | + | |
35 | 阿尔泰冬麦 | 阿勒泰 | + | + | + | 79 | 白冬麦 | 伽师 | + | + | + |
36 | 无芒 | 伊犁 | + | + | + | 80 | 白冬麦 | 伽师 | + | + | + |
37 | 红冬麦 | 和静 | + | + | + | 81 | 黑冬麦 | 伽师 | + | + | |
38 | 红冬麦 | 和静 | + | + | 82 | 白冬麦 | 疏附 | + | + | + | |
39 | 焉耆冬麦 | 焉耆 | + | + | 83 | 红冬麦 | 疏附 | + | + | + | |
40 | 南疆白冬麦 | 焉耆 | + | + | 84 | 阿克不大衣 | 疏勒 | + | + | + | |
41 | 红冬麦 | 焉耆 | + | + | + | 85 | 可孜不大衣 | 疏勒 | + | + | + |
42 | 南疆冬麦 | 焉耆 | + | + | + | 86 | 红冬麦 | 疏勒 | + | + | + |
43 | 库孜尔库孜格 | 库尔勒 | + | + | + | 87 | 土种麦 | 疏勒 | + | + | |
44 | 麦洛瓦西 | 库尔勒 | + | + | + | 88 | 白冬麦 | 疏勒 | + | + | + |
45 | 麦洛瓦西 | 库尔勒 | + | + | + | 89 | 阿伯格其力克 | 疏勒 | + | + | |
46 | 阿克古斯格 | 库尔勒 | + | + | + | 90 | 白冬麦 | 疏勒 | + | + | + |
47 | 阿克古斯格 | 库尔勒 | + | + | + | 91 | 黑冬麦 | 疏勒 | + | + | |
48 | 河西巴克红麦 | 库尔勒 | + | + | + | 92 | 红皮红冬麦 | 疏勒 | + | + | + |
49 | 阳霞红冬麦 | 库尔勒 | + | + | 93 | 白冬麦 | 疏勒 | + | + | + | |
50 | 巴利巴式 | 库尔勒 | + | + | + | 94 | 白壳白粒红心冬麦 | 喀什 | + | + | + |
51 | 阿克库孜盖 | 库尔勒 | + | + | 95 | 白冬麦 | 喀什 | + | + | + | |
52 | 红冬麦 | 库尔勒 | + | + | + | 96 | 哈热克巴斯曼 | 喀什 | + | + | + |
53 | 白冬麦 | 若羌 | + | + | 97 | 安迪然冬麦 | 喀什 | + | |||
54 | 冬麦 | 若羌 | + | + | + | 98 | 乌恰白麦 | 乌恰 | + | + | + |
55 | 冬麦 | 轮台 | + | + | + | 99 | 麦盖提白冬麦 | 麦盖提 | + | + | |
56 | 红冬麦 | 轮台 | + | + | 100 | 白粒早熟 | 莎车 | + | + | ||
57 | 买洛瓦西 | 库车 | + | 101 | 白晚冬麦 | 莎车 | + | + | + | ||
58 | 黑冬麦 | 库车 | + | + | + | 102 | 白冬麦 | 莎车 | + | + | |
59 | 白冬麦 | 库车 | + | + | + | 103 | 白晚冬麦 | 莎车 | + | + | + |
60 | 纳瓦提然 | 新和 | + | + | + | 104 | 红芒早 | 莎车 | + | + | |
61 | 白冬麦 | 新和 | + | + | + | 105 | 白穗早熟冬麦 | 莎车 | + | + | |
62 | 白冬麦 | 新和 | + | + | + | 106 | 白冬麦 | 莎车 | + | + | + |
63 | 热衣木夏 | 新和 | + | + | + | 107 | 黑穗麦 | 岳普湖 | + | + | + |
64 | 拉瓦得朗 | 沙雅 | + | + | + | 108 | 白冬麦 | 岳普湖 | + |
编号 Code | 品种名 Cultivar name | 来源 Origin | Yr 9 | Yr 26 | Yr Tp1 | 编号 Code | 品种名 Cultivar name | 来源 Origin | Yr 9 | Yr 26 | Yr Tp1 |
---|---|---|---|---|---|---|---|---|---|---|---|
109 | 白冬麦 | 岳普湖 | 132 | 新冬4号 | + | + | + | ||||
110 | 黑冬麦 | 叶城 | + | + | + | 133 | 新冬5号 | ||||
111 | 红冬麦 | 叶城 | + | + | + | 134 | 新冬7号 | + | + | + | |
112 | 哈阿热托司曼 | 叶城 | + | + | + | 135 | 新冬8号 | + | + | + | |
113 | 卡巴什曼 | 叶城 | + | + | 136 | 新冬9号 | + | + | |||
114 | 黑冬麦 | 墨玉 | + | 137 | 新冬10号 | + | + | + | |||
115 | 白冬麦 | 洛浦 | + | + | 138 | 新冬11号 | + | + | + | ||
116 | 黑冬麦 | 洛浦 | + | + | 139 | 新冬22号 | |||||
117 | 卡尔库孜干 | 于田 | + | + | + | 140 | 新冬26号 | ||||
118 | 克孜尔库孜干 | 民丰 | + | + | + | 141 | 新冬27号 | + | + | + | |
119 | 黑冬麦 | 和田 | 142 | 新冬28号 | + | + | |||||
120 | 黑冬麦 | 和田 | + | 143 | 新冬29号 | ||||||
121 | 早熟冬麦 | 和田 | + | + | + | 144 | 新冬32号 | + | + | + | |
122 | 白冬麦 | 和田 | + | + | + | 145 | 新冬33号 | + | + | ||
123 | 卡衣木江 | 和田 | + | + | + | 146 | 新冬35号 | + | + | + | |
124 | 喀冬2号 | + | + | + | 147 | 新冬41号 | |||||
125 | 喀冬9号 | + | + | + | 148 | 新冬46号 | |||||
126 | 伊农1号 | + | + | 149 | 新冬49号 | + | + | ||||
127 | 伊农3号 | + | + | + | 150 | 新冬50号 | |||||
128 | 巴冬1号 | + | + | + | 151 | 新冬51号 | + | + | + | ||
129 | 新冬1号 | + | + | + | 152 | 新冬52号 | + | + | + | ||
130 | 新冬2号 | + | + | 153 | 新冬53号 | ||||||
131 | 新冬3号 | + | + |
Table 2 Wheat cultivars tested and results of molecular detection
编号 Code | 品种名 Cultivar name | 来源 Origin | Yr 9 | Yr 26 | Yr Tp1 | 编号 Code | 品种名 Cultivar name | 来源 Origin | Yr 9 | Yr 26 | Yr Tp1 |
---|---|---|---|---|---|---|---|---|---|---|---|
109 | 白冬麦 | 岳普湖 | 132 | 新冬4号 | + | + | + | ||||
110 | 黑冬麦 | 叶城 | + | + | + | 133 | 新冬5号 | ||||
111 | 红冬麦 | 叶城 | + | + | + | 134 | 新冬7号 | + | + | + | |
112 | 哈阿热托司曼 | 叶城 | + | + | + | 135 | 新冬8号 | + | + | + | |
113 | 卡巴什曼 | 叶城 | + | + | 136 | 新冬9号 | + | + | |||
114 | 黑冬麦 | 墨玉 | + | 137 | 新冬10号 | + | + | + | |||
115 | 白冬麦 | 洛浦 | + | + | 138 | 新冬11号 | + | + | + | ||
116 | 黑冬麦 | 洛浦 | + | + | 139 | 新冬22号 | |||||
117 | 卡尔库孜干 | 于田 | + | + | + | 140 | 新冬26号 | ||||
118 | 克孜尔库孜干 | 民丰 | + | + | + | 141 | 新冬27号 | + | + | + | |
119 | 黑冬麦 | 和田 | 142 | 新冬28号 | + | + | |||||
120 | 黑冬麦 | 和田 | + | 143 | 新冬29号 | ||||||
121 | 早熟冬麦 | 和田 | + | + | + | 144 | 新冬32号 | + | + | + | |
122 | 白冬麦 | 和田 | + | + | + | 145 | 新冬33号 | + | + | ||
123 | 卡衣木江 | 和田 | + | + | + | 146 | 新冬35号 | + | + | + | |
124 | 喀冬2号 | + | + | + | 147 | 新冬41号 | |||||
125 | 喀冬9号 | + | + | + | 148 | 新冬46号 | |||||
126 | 伊农1号 | + | + | 149 | 新冬49号 | + | + | ||||
127 | 伊农3号 | + | + | + | 150 | 新冬50号 | |||||
128 | 巴冬1号 | + | + | + | 151 | 新冬51号 | + | + | + | ||
129 | 新冬1号 | + | + | + | 152 | 新冬52号 | + | + | + | ||
130 | 新冬2号 | + | + | 153 | 新冬53号 | ||||||
131 | 新冬3号 | + | + |
[1] | 蔺瑞明, 郄彦敏, 冯晶, 等. 中国小麦农家品种抗条锈病的鉴定与评价[J]. 沈阳农业大学学报, 2010, 41(5): 535-539. |
LIN Ruiming, QIE Yanmin, FENG Jing, et al. Identification of the Yellow Rust Resistance Gene- Carrying Wheat Landraces in China[J]. Journal of Shenyang Agricultural University, 2010, 41(5):535-539. | |
[2] | 杨亨, 康晓慧, 陈万权, 等. 78份冬小麦区试品种抗条锈病基因的分子检测[J]. 湖南师范大学自然科学学报, 2019, 42(3): 34-41. |
YANG Heng, KANG Xiaohui, CHEN Wanquan, et al. Molecular Detection of Stripe Rust Resistance Genes in 78 Winter Wheat Regional Trial Cultivars[J]. Journal of Natural Science of Hunan Normal University, 2019, 42(3): 34-41. | |
[3] | 韩德俊, 康振生. 中国小麦品种抗条锈病现状及存在问题与对策[J]. 植物保护, 2018, 44(5):1-12. |
HAN Dejun, KANG Zhensheng. Current status and future strategy in breeding wheat for resistance to stripe rust in China[J]. Plant Protection, 2018, 44(5):1-12. | |
[4] |
翁东旭, 徐世昌, 蔺瑞明, 等. 小麦条锈菌鉴别寄主抗条锈病基Yr 9的微卫星标记[J]. 遗传学报, 2005,(9): 937-941.
PMID |
WENG Dongxu, XU Shichang, LIN Ruiming, et al. M icrosatellite Marker Linked with StripeRust Resistant Gene Yr 9 in Wheat[J]. Acta Genetica Sinica, 2005,(9): 937-941.
PMID |
|
[5] |
Ma J, Zhou R, Dong Y, et al. Molecular mapping and detection of the yellow rust resistance gene Yr26 in wheat transferred from Triticum turgidum L. using microsatellite markers[J]. Euphytica, 2001, 120(2):219-226.
DOI URL |
[6] | 殷学贵, 尚勋武, 庞斌双, 等. A-3中抗条锈新基因Yr Tp1和Yr Tp2的分子标记定位分析[J]. 中国农业科学, 2006, 39(1): 10-17. |
YIN Xuegui, SHANG Xunwu, PANG Binshuang, et al. Molecular Mapping of Two Novel Stripe Rust Resistance Genes YrTp1 and YrTp2 in A-3 Drived from Triticumaestivum×Thinopyrumponticum[J]. Scientia Agricultura Sinica, 2006, 39(1): 10-17. | |
[7] | 李峰奇, 韩德俊, 魏国荣, 等. 黄淮麦区126个小麦品种(系)抗条锈病基因的分子检测[J]. 中国农业科学, 2008, 41(10):3060-3069. |
LI Fengqi, HAN Dejun, WEI Guorong, et al. Molecular Detection of Stripe Rust Resistant Genes in 126 Winter Wheat Varieties from the Huanghuai Wheat Region[J]. Scientia Agricultura Sinica, 2008, 41(10):3060-3069. | |
[8] | 黄亮, 刘太国, 刘博, 等. 黄淮麦区34个小麦主栽品种(系)抗条锈病基因推导[J]. 植物保护, 2019, 45(1):159-163. |
HUANG Liang, LIU Taiguo, LIU Bo, et al.. Postulation of yellow rust resistance genes in 34 wheat cultivars from Huanghuai wheat growing region[J]. Plant Protection, 2019, 45(1):159-163. | |
[9] | 张玉薇, 刘太国, 刘博, 等. 中国75个国审小麦品种抗条锈基因推导[J]. 植物保护学报, 2014, 41(1): 45-53. |
ZHANG Yuwei, LIU Taiguo, LIIU Bo, et al. Gene postulation of stripe rust resistance genes of 75 Chinese commercial wheat cultivars[J]. Acta Phytophylacica Sinica, 2014, 41(1): 45-53. | |
[10] | 刘丽娟, 王竹林, 奚亚军, 等. 黄淮麦区小麦品种(系)中Yr 26基因的SSR检测[J]. 西北植物学报, 2008, 28(7):1308-1312. |
LIU Lingjuan, WANG Zhulin, XI Yajun, et al. Detection of Stripe Rust Resistant Gene Yr26 with SSR Markers in Wheat Cultivars of Huanghuai Region[J]. Acta Botanica Boreali-Occidentalia Sinica, 2008, 28(7):1308-1312. | |
[11] | 周阳, 何中虎, 张改生, 等. 1BL/1RS易位系在我国小麦育种中的应用[J]. 作物学报, 2004,(6): 531-535. |
ZHOU Yang, HE Zhonghu, ZHANG Gaisheng, et al. Utilization of 1BL/1RS Translocation in Wheat Breeding in China[J]. Acta Agronomica Sinica, 2004,(6): 531-535. | |
[12] | 韩德俊, 张培禹, 王琪琳, 等. 1980份小麦地方品种和国外种质抗条锈性鉴定与评价[J]. 中国农业科学, 2012, 45(24): 5013-5023. |
HAN Dejun, ZHANG Peiyu, WANG Qilin, et al. Identification and Evaluation of Resistance to Stripe Rust in 1980 Wheat Landraces and Abroad Germplasm[J]. Scientia Agricultura Sinica, 2012, 45(24): 5013-5023. | |
[13] | 孙建鲁, 王吐虹, 冯晶, 等. 100个小麦品种资源抗条锈性鉴定及重要抗条锈病基因的SSR检测[J]. 植物保护, 2017, 43(2): 64-72. |
SUN Jianlu, WANG Tuhong, FENG Jing, et al. Identification of resistance to wheat stripe rust and detection of known resistance genes in 100 wheat cultivars with SSR markers[J]. Plant Protection, 2017, 43(2): 64-72. | |
[14] | 管方念, 龙黎, 姚方杰, 等. 152份黄淮海麦区小麦农家品种抗条锈性评价及重要条锈病抗性基因的分子检测[J]. 中国农业科学, 2020. 53(18): 3629-3637. |
GUAN Fangnian, LONG Li, YAO FangJie, et al. Evaluation of Resistance to Stripe Rust and Molecular Detection of Important Known Yr Gene(s) of 152 Chinese Wheat Landraces from the Huang-huai-hai[J]. Scientia Agricultura Sinica, 2020, 53(18):3629-3637. | |
[15] | 王吐虹, 郭青云, 蔺瑞明, 等. 中国40个小麦农家品种和甘肃南部40个生产品种抗条锈病基因推导[J]. 中国农业科学, 2015, 48(19):3834-3847. |
WANG Tuhong, GUO Qingyun, LIN Ruiming, et al. Postulation of Stripe Rust Resistance Genes in Chinese 40 Wheat Landraces and 40 Commercial Cultivars in the Southern Region of Gansu Province[J]. Scientia Agricultura Sinica, 2015, 48(19):3834-3847. | |
[16] | 黄苗苗, 孙振宇, 曹世勤, 等. 223份小麦农家品种田间抗条锈病性评价及抗病基因分子检测[J]. 植物保护学报, 2018, 45(1): 90-100. |
HUANG Miaomiao, SUN Zhenyu, CAO Shiqin, et al. Evaluation of the resistance of 223 wheat landraces in Gansu Province to stripe rust and molecular detection[J]. Journal of Plant Protection, 2018, 45(1):90-100. | |
[17] | 黄亮, 刘太国, 刘博, 等. 我国197份小麦核心种质资源对小麦条锈菌新小种CYR34的抗性评价[J]. 植物保护, 2019, 45(1):148-154. |
HUANG Liang, LIU Taiguo, LIU Bo, et al. Resistance evaluation of 197 Chinese wheat core germplasms to a new stripe rust race, CYR34[J]. Plant Protection, 2019, 45(1):148-154. | |
[18] | 白微微, 高海峰, 张航, 等. 新疆主要小麦品种(系)中抗条锈病基因的分子检测[J]. 新疆农业科学, 2017, 54(3):497-504. |
BAI Weiwei, GAO Haifeng, ZHANG Hang, et al. Molecular Detection of Stripe Rust-Resistant Genes in Main Wheat Varieties ( Lines) from Xinjiang[J]. Xinjiang Agricultural Sciences, 2017, 54(3):497-504. | |
[19] | 覃祥安. 新疆小麦地方品种鉴定及利用研究[J]. 作物品种资源, 1992, 4(4): 9-11. |
QIN Xiangan. Research about Evaluation and utilization of wheat landraces from Xinjiang[J]. Crop Germplasm, 1992, 4(4): 9-11. | |
[20] | 李继发, 邓志英, 孙福来, 等. 小麦新品种“山农20”抗病基因的分子检测[J]. 作物学报, 2014, 40(4): 611-621. |
LI Jifa, DENG Zhiying, SUN Fulai, et al. Resistance Genes of Wheat Variety Shannong 20 Identified by Diagnostic Molecular Markers[J]. Acta Agronomica Sinica, 2014, 40(4): 611-621.
DOI URL |
|
[21] | 张晓祥, 王玲, 寿路路. 一种快速提取小麦基因组DNA的改良CTAB方法[J]. 中国农学通报, 2012. 28(36):46-49. |
ZHANG Xiaoxiang, WANG Ling, SHOU Lulu. A Rapid Modified CTAB Method of Extracting Genomic DNA from Wheat Leaf[J]. Chinese Agricultural Science Bulletin, 2014, 40(4): 611-621. | |
[22] |
Chen W Q, Wu L R, Liu T G, et al. Race Dynamics, Diversity, and Virulence Evolution in Puccinia striiformis f. sp. tritici, the Causal Agent of Wheat Stripe Rust in China from 2003 to 2007[J]. Plant Disease, 2009, 93(11):1093-1101.
DOI PMID |
[23] | Fabre F, Rousseau E, Mailleret L, Moury B. Durable strategies todeploy plant resistance in agricultural landscapes[J]. New Phytologist, 2012, (193): 1064-1075. |
[1] | CHEN Chuanxin, ZHNAG Yongqiang, NIE Shihui, KONG Depeng, Sailihan Sai, XU Qijiang, LEI Junjie. Effects of biomass charcoal application rate on the growth, development, and yield of winter wheat under drip irrigation [J]. Xinjiang Agricultural Sciences, 2023, 60(9): 2146-2151. |
[2] | WANG Xiaoyu, WANG Xiaoping, SHI Wenyu, LIU Meiyan, MA Jian, GUO Yunpeng, SONG Ruixin, WANG Qingtao. Responses of photosynthetic characteristics, dry matter accumulation and yield to drought stress in winter wheat at jointing stage [J]. Xinjiang Agricultural Sciences, 2023, 60(9): 2163-2172. |
[3] | YANG Hongmei, ZHANG Yueqiang, SHI Yingwu, Omarjan Kurban, LIN Qing, WANG Ning, CHU Min, ZENG Jun. Effects of different types of foliar fertilizers on grain yield and 1uality of winter wheat [J]. Xinjiang Agricultural Sciences, 2023, 60(9): 2182-2188. |
[4] | ZHANG Yongqiang, CHEN Chuanxin, NIE Shihui, XU Qijiang, Sailihan Sai, LEI Junjie. Regulation of chlormequat on lodging resistance of winter wheat stem during the period of drip application of CCC [J]. Xinjiang Agricultural Sciences, 2023, 60(8): 1873-1878. |
[5] | TIAN Wenqiang, DONG Yanxue, SHI Yongqing, LEI Junjie, SUN Ganggang, WANG Hongyi, NIE Lingfan, GOU Fei, AI Hongyu, SHI Shubing, ZHANG Jinshan. Effects of sowing date on stem traits and population dynamics of ultra late winter wheat [J]. Xinjiang Agricultural Sciences, 2023, 60(6): 1301-1307. |
[6] | ZHANG Yongqiang, CHEN Chuanxin, XU Qijiang, NIE Shihui, LEI Junjie, LIU Changwen. Effects of combined application of nitrogen enhancer and nitrogen reduction on leaf physiology and yield of winter wheat [J]. Xinjiang Agricultural Sciences, 2023, 60(6): 1319-1325. |
[7] | LUO Siwei, JIA Yonghong, ZHANG Jinshan, WANG Kai, LI Dandan, WANG Runqi, DONG Yanxue, SHI Shubing. Effects of drip irrigation capillary spacing and emitter spacing on the spatial distribution of soil water, root morphology and yield of uniformly sown winter wheat [J]. Xinjiang Agricultural Sciences, 2023, 60(6): 1344-1352. |
[8] | TIAN Wenqiang, GOU Fei, NIE Lingfan, SUN Ganggang, WANG Hongyi, SHI Yongqing, SHANG Yanming, WU Li, SHI Shubing, ZHANG Jinshan. Effects of super late sowing on photosynthetic characteristics, dry matter accumulation and yield of winter wheat [J]. Xinjiang Agricultural Sciences, 2023, 60(5): 1059-1066. |
[9] | ZHANG Jingcan, ZHANG Yongqiang, LEI Junjie, CHEN Chuanxin, XU Qijiang, NIE Shihui, XU Wenxiu. Effects of different growth regulators on stem characteristics and lodging resistance of winter wheat under drip irrigation [J]. Xinjiang Agricultural Sciences, 2023, 60(5): 1067-1074. |
[10] | ZHANG Yongqiang, XU Qijiang, CHEN Chuanxin, MA Xin, ZHANG Humei, NIE Shihui, LEI Junjie. Effects of basal fertilizer types and fertilization methods on the growth and yield of winter wheat [J]. Xinjiang Agricultural Sciences, 2023, 60(5): 1075-1081. |
[11] | ZHANG Yongqiang, FANG Hui, CHEN Chuanxin, NIE Shihui, Sailihan Sai, XU Qijiang, CHEN Xingwu, LEI Junjie. Effect of Exogenous Silicon Drip Application on Growth and Physiological Characteristics of Winter Wheat under Low Light Stress [J]. Xinjiang Agricultural Sciences, 2023, 60(2): 336-343. |
[12] | YANG Ruwei, LIU Yi, LI Jiangtao, Gulimila Rehemutula, LUO Zhengqian, XU Linli, SHEN Hongfei. Molecular identification of potato virus disease by RT-PCR [J]. Xinjiang Agricultural Sciences, 2023, 60(12): 3032-3040. |
[13] | LIU Guohong, FU Yanbo, BIAN Qingyong, WEI Yayuan, WEI Yanhong, ZHANG Wanxu, ZHU Jinquan. Effects of Water and Nitrogen Coupling on Physiological Growth and Yield of Wheat under Drip Irrigation [J]. Xinjiang Agricultural Sciences, 2022, 59(7): 1582-1589. |
[14] | CHEN Meng, LIANG Xueqi, LI Ling, ZHANG Li, CHEN Guodong, WU Quanzhong, ZHAI Yunlong. Effects of Planting Densities on Grain Filling and Grain Yield of Uniformly Sown Winter Wheat [J]. Xinjiang Agricultural Sciences, 2022, 59(6): 1338-1346. |
[15] | ZHU Zhen, LI Tiansheng, CUI Jing, CHEN Jianhua, SHI Xiaoyan, JIANG Menghao, WANG Haijiang. Study on Estimation of Water Status of Winter Wheat in Different Growth Stages Based on Hyperspectral Imaging [J]. Xinjiang Agricultural Sciences, 2022, 59(3): 521-532. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||