Xinjiang Agricultural Sciences ›› 2023, Vol. 60 ›› Issue (1): 116-126.DOI: 10.6048/j.issn.1001-4330.2023.01.014
• Horticultural Special Local Products • Previous Articles Next Articles
LIANG Ju1(), LIU Guohong1, WANG Baomin2, HE Qiao3, Abrake Niazi1, GUO Hongmei1, LI Xingting1,3, REN Hongsong4()
Received:
2022-05-19
Online:
2023-01-20
Published:
2023-03-07
Correspondence author:
REN Hongsong(1977-), male, from Yuli County, Xinjiang, researcher, doctor, his research direction is molecular assisted breeding of fruit trees,(E-mail)1134037950@qq.com
Supported by:
梁雎1(), 刘国宏1, 王保民2, 何桥3, 阿布来克·尼亚孜1, 郭红梅1, 李兴婷1,3, 任红松4()
通讯作者:
任红松(1977-),男,新疆尉犁人,研究员,博士,研究方向为果树分子辅助育种,(E-mail)1134037950@qq.com
作者简介:
梁雎(1978-),男,新疆吐鲁番人,正高级农艺师,硕士,研究方向为葡萄种质资源、遗传育种及栽培,(E-mail)147302120@qq.com
基金资助:
CLC Number:
LIANG Ju, LIU Guohong, WANG Baomin, HE Qiao, Abrake Niazi, GUO Hongmei, LI Xingting, REN Hongsong. Comparative Analysis of Fruit Folic Acid Content and ISSR in Different Grape Germplasm Resources[J]. Xinjiang Agricultural Sciences, 2023, 60(1): 116-126.
梁雎, 刘国宏, 王保民, 何桥, 阿布来克·尼亚孜, 郭红梅, 李兴婷, 任红松. 不同来源葡萄种质资源果实叶酸含量及ISSR比较分析[J]. 新疆农业科学, 2023, 60(1): 116-126.
Add to citation manager EndNote|Ris|BibTeX
URL: http://www.xjnykx.com/EN/10.6048/j.issn.1001-4330.2023.01.014
品种名称 Variety name | 来源 Source | 父母本 Male female parent | 产地 Place of origin |
---|---|---|---|
炎兴无核Yanxing seedness | 欧亚种 | 不详 | 中国 |
灰比诺Pinot Grigio | 欧亚种 | Pinot Noir芽变 | 法国 |
瑞都翠霞Ruiducuixia | 欧亚种 | 京秀×香妃 | 中国 |
京蜜Jingmi | 欧亚种 | 京秀×香妃 | 中国 |
黑奇无核Heiqiseedness | 欧亚种 | 不详 | 美国 |
无核白Thompson seedless | 欧亚种 | 不详 | 小亚细亚 |
1124 | 欧亚种 | 葡萄园皇后×康耐诺 | 中国 |
京翠Jingcui | 欧亚种 | 京秀×香妃 | 中国 |
红宝石Rubyseedness | 欧亚种 | 皇帝× Pirovano75 | 美国 |
无核紫Blackmonukka | 欧亚种 | 不详 | 印度 |
达米娜Damina | 欧亚种 | 比坎× 玫瑰香 | 罗马尼亚 |
美人指Manicure finger | 欧亚种 | 优尼坤 × 巴拉蒂 | 日本 |
粉红亚都蜜Yatomi Rosa | 欧亚种 | ペソノニアキェ ×(ヮーベローザ×ローザワスット) | 日本 |
木纳格Munage | 欧亚种 | 不详 | 中国 |
里扎马特Lizhamate | 欧亚种 | 可口甘 × 帕尔肯特 | 前苏联 |
红巴拉多Hongbaladuo | 欧亚种 | 巴拉多×京秀杂 | 日本 |
杂1 Za1 | 欧美杂种 | 红地球×克瑞森无核 | 中国 |
夏黑Summer black | 欧美杂种 | 巨峰 × 无核白 | 日本 |
蜜红Mihong | 欧美杂种 | 井川682芽变 | 日本 |
红标无核Hongbiaoseedness | 欧美杂种 | 郑州早红×巨峰 | 中国 |
洛浦早生Luopuzaosheng | 欧美杂种 | 京亚芽变 | 中国 |
宇选1号Yuxuan1hao | 欧美杂种 | 巨峰芽变选育 | 中国 |
Table 1 22 Grape germplasm resources used for ISSR analysis
品种名称 Variety name | 来源 Source | 父母本 Male female parent | 产地 Place of origin |
---|---|---|---|
炎兴无核Yanxing seedness | 欧亚种 | 不详 | 中国 |
灰比诺Pinot Grigio | 欧亚种 | Pinot Noir芽变 | 法国 |
瑞都翠霞Ruiducuixia | 欧亚种 | 京秀×香妃 | 中国 |
京蜜Jingmi | 欧亚种 | 京秀×香妃 | 中国 |
黑奇无核Heiqiseedness | 欧亚种 | 不详 | 美国 |
无核白Thompson seedless | 欧亚种 | 不详 | 小亚细亚 |
1124 | 欧亚种 | 葡萄园皇后×康耐诺 | 中国 |
京翠Jingcui | 欧亚种 | 京秀×香妃 | 中国 |
红宝石Rubyseedness | 欧亚种 | 皇帝× Pirovano75 | 美国 |
无核紫Blackmonukka | 欧亚种 | 不详 | 印度 |
达米娜Damina | 欧亚种 | 比坎× 玫瑰香 | 罗马尼亚 |
美人指Manicure finger | 欧亚种 | 优尼坤 × 巴拉蒂 | 日本 |
粉红亚都蜜Yatomi Rosa | 欧亚种 | ペソノニアキェ ×(ヮーベローザ×ローザワスット) | 日本 |
木纳格Munage | 欧亚种 | 不详 | 中国 |
里扎马特Lizhamate | 欧亚种 | 可口甘 × 帕尔肯特 | 前苏联 |
红巴拉多Hongbaladuo | 欧亚种 | 巴拉多×京秀杂 | 日本 |
杂1 Za1 | 欧美杂种 | 红地球×克瑞森无核 | 中国 |
夏黑Summer black | 欧美杂种 | 巨峰 × 无核白 | 日本 |
蜜红Mihong | 欧美杂种 | 井川682芽变 | 日本 |
红标无核Hongbiaoseedness | 欧美杂种 | 郑州早红×巨峰 | 中国 |
洛浦早生Luopuzaosheng | 欧美杂种 | 京亚芽变 | 中国 |
宇选1号Yuxuan1hao | 欧美杂种 | 巨峰芽变选育 | 中国 |
品种名称 Variety name | 叶酸含量均值 Folic acid average content (ng/g) | 种 Species |
---|---|---|
黑奇无核Heiqiseedness | 46.95aA | 欧亚种 |
红巴拉多Hongbaladuo | 35.96abAB | 欧亚种 |
炎兴无核Yanxing seedness | 35.69abAB | 欧亚种 |
红宝石Rubyseedness | 27.06bcBC | 欧亚种 |
夏黑Summer black | 21.56bcdBCD | 欧美杂种 |
达米拉Damina | 19.92cdeBCD | 欧亚种 |
本纳格Munage | 17.83cdefBCD | 欧亚种 |
蜜红Mihong | 18.55cdefBCD | 欧美杂种 |
无核紫Blackmonukka | 17.37cdefBCD | 欧亚种 |
瑞都翠霞Ruiducuixia | 16.68cdefBCD | 欧亚种 |
宇选一号Yuxuan1hao | 14.27cdefCD | 欧美杂种 |
京密Jingmi | 13.5cdefCD | 欧亚种 |
里扎马特Lizhamate | 12.76cdefCD | 欧亚种 |
洛浦早生Luopuzaosheng | 11.40cdefCD | 欧美杂种 |
粉红亚都蜜Yatomi Rosa | 10.11defCD | 欧亚种 |
杂1 Za1 | 8.79defCD | 欧美杂种 |
美人指Manicure | 8.27defCD | 欧亚种 |
无核白Thompson seedless | 7.98defCD | 欧亚种 |
红标无核Hongbiaoseedness | 7.65defCD | 欧美杂种 |
1124 | 7.16defCD | 欧亚种 |
京翠Jingcui | 5.03efD | 欧亚种 |
灰比诺Pinot Grigio | 1.93fD | 欧亚种 |
Table 2 Variance analysis of folic acid content in 22 grape germplasm resources
品种名称 Variety name | 叶酸含量均值 Folic acid average content (ng/g) | 种 Species |
---|---|---|
黑奇无核Heiqiseedness | 46.95aA | 欧亚种 |
红巴拉多Hongbaladuo | 35.96abAB | 欧亚种 |
炎兴无核Yanxing seedness | 35.69abAB | 欧亚种 |
红宝石Rubyseedness | 27.06bcBC | 欧亚种 |
夏黑Summer black | 21.56bcdBCD | 欧美杂种 |
达米拉Damina | 19.92cdeBCD | 欧亚种 |
本纳格Munage | 17.83cdefBCD | 欧亚种 |
蜜红Mihong | 18.55cdefBCD | 欧美杂种 |
无核紫Blackmonukka | 17.37cdefBCD | 欧亚种 |
瑞都翠霞Ruiducuixia | 16.68cdefBCD | 欧亚种 |
宇选一号Yuxuan1hao | 14.27cdefCD | 欧美杂种 |
京密Jingmi | 13.5cdefCD | 欧亚种 |
里扎马特Lizhamate | 12.76cdefCD | 欧亚种 |
洛浦早生Luopuzaosheng | 11.40cdefCD | 欧美杂种 |
粉红亚都蜜Yatomi Rosa | 10.11defCD | 欧亚种 |
杂1 Za1 | 8.79defCD | 欧美杂种 |
美人指Manicure | 8.27defCD | 欧亚种 |
无核白Thompson seedless | 7.98defCD | 欧亚种 |
红标无核Hongbiaoseedness | 7.65defCD | 欧美杂种 |
1124 | 7.16defCD | 欧亚种 |
京翠Jingcui | 5.03efD | 欧亚种 |
灰比诺Pinot Grigio | 1.93fD | 欧亚种 |
引物编号 Primr numbr | 引物碱基序列 Primer base sequence | 扩增总 带数 Total number of amplified bands | 多态性 带数 Number of polymor phic bands | 多态位点 百分率 Polymor phic locus percenta (%) |
---|---|---|---|---|
ubc811 | GAGAGAGAGAGAGAGAC | 4 | 1 | 25 |
ubc815 | CTCTCTCTCTCTCTCTG | 9 | 9 | 100 |
ubc825 | ACACACACACACACACT | 10 | 9 | 90 |
ubc834 | AGAGAGAGAGAGAGAGYT | 10 | 10 | 100 |
ubc842 | GAGAGAGAGAGAGAGAYG | 10 | 9 | 90 |
ubc855 | ACACACACACACACACYT | 7 | 6 | 85 |
ubc856 | ACACACACACACACACYA | 4 | 3 | 75 |
ubc881 | GGGTGGGGTGGGGTG | 13 | 13 | 100 |
ubc807 | AGAGAGAGAGAGAGAGT | 11 | 10 | 90 |
总计Totel | 78 | 70 | - | |
平均Average | 8.6 | 7.7 | 90 |
Table 3 Sequence and amplification efficiency of different primers
引物编号 Primr numbr | 引物碱基序列 Primer base sequence | 扩增总 带数 Total number of amplified bands | 多态性 带数 Number of polymor phic bands | 多态位点 百分率 Polymor phic locus percenta (%) |
---|---|---|---|---|
ubc811 | GAGAGAGAGAGAGAGAC | 4 | 1 | 25 |
ubc815 | CTCTCTCTCTCTCTCTG | 9 | 9 | 100 |
ubc825 | ACACACACACACACACT | 10 | 9 | 90 |
ubc834 | AGAGAGAGAGAGAGAGYT | 10 | 10 | 100 |
ubc842 | GAGAGAGAGAGAGAGAYG | 10 | 9 | 90 |
ubc855 | ACACACACACACACACYT | 7 | 6 | 85 |
ubc856 | ACACACACACACACACYA | 4 | 3 | 75 |
ubc881 | GGGTGGGGTGGGGTG | 13 | 13 | 100 |
ubc807 | AGAGAGAGAGAGAGAGT | 11 | 10 | 90 |
总计Totel | 78 | 70 | - | |
平均Average | 8.6 | 7.7 | 90 |
[1] |
Hanson A D, Gregory J E. Folate Biosynthesis, Turnover, and Transport in Plants[J]. Annual Review of Plant Biology, 2011, 62(1):105-125.
DOI URL |
[2] | 许丽惠. 叶酸的研究进展[J]. 福建畜牧兽医, 2013, 35(2):34-36. |
XU Lihui. Research progress of folic acid[J]. Fujian Animal Husbandry and Veterinary Medicine, 2013, 35(2): 34-36. | |
[3] |
Basset G J C, Quinlivan E P, Gregory J F, et al. Folate synthesis and metabolism in plants and prospects for biofortification[J]. Crop Science, 2005, 45(2):449-453.
DOI URL |
[4] |
De Lepeleire J, Strobbe S, Verstraele J, et al. Folate iofortification of potato by tuber-specific expression of four folate biosynthesis genes[J]. Molecular Plant, 2018, 11(1):175-188.
DOI PMID |
[5] | Lucock M. Folic Acid: Nutritional biochemistry, molecular biology, and role in disease processes[J]. Molecular Genetics and Membolism, 2000, 71(1/2):121-138. |
[6] | 李玮. 围孕期妇女叶酸干预效果评价及影响因素研究[D]兰州: 兰州大学硕士学位论文.2009年 |
LI Wei. Effect evaluation and influencing factors of folic acid intervention in perinatal women[D]. Lanzhou: Lanzhou University, 2009. | |
[7] | 迪丽霍玛尔·吾尔开希. 维吾尔族孕妇膳食营养-体内叶酸、维生素B6、B12水平及相关因素研究[D]. 乌鲁木齐: 新疆医科大学硕士学位论文, 2016. |
Dilihomar Wuerkaixi. Dietary nutrition of Uighur pregnant women-Study on folic acid, vitamin B6, B12 levels and related factors[D]. Urumqi: Xinjiang Medical University, 2016. | |
[8] | 占才贵. 三种富含叶酸的果蔬提取物抗苯并a芘致突变作用的实验研究[J]. 营养与保健, 2011,(6):368-370,487. |
ZHAN Caigui. Experimental study on the antimutagenic effect of three fruit and vegetable extracts rich in folic acid on Benzo (a) pyrene[J]. Nutrition and Health Care, 2011,(6):368-370,487. | |
[9] | 唐晓伟. 蔬菜中的叶酸含量[J]. 安徽农业科学, 2000, 28(1): 96-98. |
TANG Xiaowei. Folic acid content in vegetables[J]. Journal of Anhui Agricultural Sciences, 2000, 28(1): 96-98. | |
[10] | 韩娟英, 何曦, 蒋宙蕾, 等. 富含叶酸水稻研究进展[J]. 中国稻米, 2017, 23(6):10-15. |
HAN Juanying, HE Xi, JIANG Zhoulei, et al. Research progress of folic acid rich rice[J]. Chinese Rice, 2017, 23(6): 10-15. | |
[11] |
邵丽华, 王莉, 白文文, 等. 山西谷子资源叶酸含量分析及评价[J]. 中国农业科学, 2014, 47(7):1265-1272.
DOI |
SHAO Lihua, WANG Li, BAI Wenwen, et al. Analysis and evaluation of folic acid content in Shanxi millet resources[J]. Scientia Agricultura Sinica, 2014, 47(7): 1265-1272.
DOI |
|
[12] | 邵丽华. 山西省小米叶酸含量的研究[D]. 太原, 山西师范大学硕士学位论文, 2014. |
SHAO Lihua. Study on folic acid content of millet in Shanxi Province[D]. Taiyuan: Shanxi Normal University, 2014. | |
[13] | 邵丽华. 粮食及果蔬中叶酸含量分析[J]. 食品科学, 2014, 24(35):290-293. |
[14] | Martinezabo , Berruezogrcavam J B, Graciacm , et al. Folate and folic acid intake estimation and food enrichment requirements[J]. Archivos Latinoamericanos De Nutricion, 2005, 55(1):5-14. |
[15] |
Salnirk , Nilesh , Keumys . Folates: Chemistry, analysis, occurrence, biofortification, bioavailability[J]. Food Research International, 2016, 89(1):1-13.
DOI URL |
[16] | 梁颖, 张毅, 李艺, 等. 烹饪及贮藏对八种常见叶菜中叶酸含量的影响[J]. 现代食品科技, 2018, 34(3):173-177. |
LIANG Ying, ZHANG Yi, LI Yi, et al. Effect of cooking and storage on the content of folic acid in eight common leafy vegetables[J] Modern Food Science and Technology, 2018, 34 (3): 173-177. | |
[17] | 崔娜. 食物烹调与叶酸损失研究[D]. 大连: 大连工业大学硕士学位论文, 2017. |
CUI Na. Research on food cooking and folic acid loss[D]. Dalian: Dalian University of technology, 2017. | |
[18] | 英研究发现:未被吸收的合成叶酸进入血液会引起健康问题[J]. 食品科学, 2007, 11(28):112. |
British research found that unabsorbed synthetic folate entering the blood can cause health problems[J]. Food science, 2007, 11 (28): 112. | |
[19] | 国家统计局发布数据[R], 2019. |
Data released by the National Bureau of statistics[R], 2019. | |
[20] | 自治区统计局发布数据[R], 2018. |
Statistics Bureau of the autonomous region released data[R], 2018. | |
[21] | 杨霈瑶. 叶酸竞争抑制ELISA检测方法的建立[D]西安: 西北大学硕士学位论文, 2017. |
YANG Peiyao. Establishment of folate competitive inhibition ELISA method[D]. Xi'an: Northwestern University, 2017. | |
[22] | 朱黎焱. 叶酸与5-甲基四氢叶酸的反相高效液相荧光检测方法的研究及应用[D]. 杭州: 浙江大学硕士学位论文, 2002. |
ZHU Liyan. Study and application of reversed phase high performance liquid phase fluorescence detection method for folic acid and 5-methyltetrahydrofolate[D]. Hangzhou: Zhejiang University, 2002. | |
[23] | md jahldul islam sho hag, 蔬菜叶酸检测技术,提高途径和基因型差异[D]. 杭州: 浙江大学博士学位论文, 2012. |
MD jahldul Islam sho hag, Vegetable folate detection technology, improving pathway and genotype differences[D]. Hangzhou: Zhejiang University, 2012 | |
[24] |
Harry Martin. Quantification of folate in fruits and vegetables: A fluorescence-based homogeneous assay[J]. Analytical Biochemistry, 2010, 402(2):137-145.
DOI PMID |
[25] | Liang Q, Yi C, Jiang L, et al. Development of a lateral flow dipstick immunoassay for evaluation of folate levels in maize[J]. Analytical & Bioanalytical Chemistry, 2017. |
[26] |
秦朝秀. 美国加里福尼亚葡萄酒中水溶性维生素含量[J]. journal and food science, 1978, 43(4):85-88.
DOI URL |
QIN Chaoxiu. Water soluble vitamin content in California wine[J]. Journal and Food Science, 1978, 43(4): 85-88.
DOI URL |
|
[27] | 张毅. 叶菜中叶酸含量的HPLC测定条件优化及不同处理方式对叶酸保留效果研究[D]. 杨凌: 西北农林科技大学硕士学位论文, 2016. |
ZHANG Yi. Optimization of HPLC determination conditions for folic acid content in leafy vegetables and Study on the effect of different treatment methods on folic acid retention[D]. Yangling: Northwest A & F University, 2016. | |
[28] |
邵丽华, 王莉, 白文文, 等. 山西谷子资源叶酸含量分析及评价[J]. 中国农业科学, 2014, 47(7): 1265-1272.
DOI |
SHAO Lihua, WANG Li, BAI Wenwen, et al. Analysis and evaluation of folic acid content of millet resources in Shanxi[J]. Scientia Agricultura Sinica, 2014, 47(7): 1265-1272.
DOI |
|
[29] |
Yue H, Liang Q, Zhang W, et al. A Monoclonal Antibody-Based Enzyme-Linked Immunosorbent Assay for 5-Formyltetrahydrofolate Detection in Maize Kernels[J]. Food Analytical Methods, 2016, 9(11):3155-3162.
DOI URL |
[30] | 高叶酸含量转基因西红柿培育成功[J]. 广西科学院学报, 2007, 23(2):47 |
Successful cultivation of transgenic tomato with high folate content[J]. Journal of Guangxi Academy of Sciences, 2007, 23(2):47 | |
[31] | 李琳, 魏灵珠, 程建徽, 等. 24 份葡萄种质亲缘关系的ISSR分析[J]. 浙江农业学报, 2013, 25(4):772-776. |
Li Lin, WEI Lingzhu, CHENG Jianwei, et al. ISSR analysis of 24 Grape Germplasm[J]. Acta Agriculturae Zhejiangensis, 2013, 25(4): 772-776. | |
[32] | 赵胜建, 郭紫娟, 赵淑云, 等. 三倍体葡萄新品种红标无核[J]. 园艺学报, 2003,(6):758. |
ZHAO Shengjian, GUO Zijuan, ZHAO Shuyun, et al. New Triploid Grape Variety Hongbiao Seedless[J]. Acta Agronomica Sinica, 2003,(6): 758. | |
[33] | 姜清娇. 葡萄酒世界的灰姑娘:灰比诺[J]. 酒世界, 2014,(5):90-93. |
Jiang qingjiao. Cinderella of the wine world: Pinot Grigio[J]. Wine World, 2014, (5): 90-93. | |
[34] | 刘国成, 高秀岩, 杨凤来. 黑奇无核葡萄引种观察实报[J]. 中外葡萄与葡萄酒, 1995,(3): 16. |
LIU Guocheng, GAO Xiuyan, YANG Fenglai. Observation on introduction of heiqi seedless grape[J]. Sino-Overseas Grapevine & Wine, 1995,(3): 16. | |
[35] | 徐卫东. 极早熟三倍体无核葡萄新品种夏黑及其栽培技术[J]. 江西园艺, 2003,(3):25-27. |
XU Weidong. A very early maturing triploid seedless grape variety, and its cultivation techniques[J]. Jiangxi Horticulture, 2003,(3): 25-27. | |
[36] | 裴俊冰. 达米娜葡萄在河北邯郸引种观察[J]. 中国果树, 2004,(1):54. |
PEI Junbing. Observation on introduction of damina grape in Handan, Hebei[J]. China Fruits, 2004,(1): 54. | |
[37] | 张晓涵, 田淑芬, 张娜. 以‘红巴拉多’为母本的胚挽救育种研究[J]. 中外葡萄与葡萄酒, 2020,(6):44-47 |
ZHANG Xiaohan, TIAN Shufen, ZHANG Na. Research on embryo rescue breeding with 'red balado' as mother[J]. Sino-Overseas Grapevine & Wine, 2020,(6): 44-47. | |
[38] | 依马木, 王莉. 木纳格葡萄品种简介[J]. 江西园艺, 2003,(4):21-22. |
Yimamu , WANG Li. Introduction to munager grape varieties[J]. Jiangxi Horticulture, 2003(4): 21-22. | |
[39] | 潘建强. 制黑色葡萄干的好品种‘无核紫’[J]. 北方果树, 2010,(6):31. |
PAN Jianqiang. A good variety of black raisins, 'seedless Purple'[J]. Northern Fruits, 2010,(6): 31. | |
[40] | 张国海, 李秀珍, 郭香凤, 等. 葡萄极早熟新品种洛浦早生的选育[J]. 中国果树, 2006,(1):8-10. |
ZHANG Guohai, LI Xiuzhen, GUO Xiangfeng, et al. Selection and breeding of a very early maturing new grape variety Luopu Zaosheng[J]. China Fruits, 2006,(1): 8-10. | |
[41] | 杨美容, 许梅娟. 葡萄新品种-京亚[J]. 生命世界杂志, 1990,(6):9. |
YANG Meimei, XU Meijuan. New grape varieties - Jingya[J]. Life World, 1990(6): 9. | |
[42] | 中国农科院果树研究所葡萄选育组. 葡萄鲜食品种-乍娜潘诺尼亚红富士黑奥林[J]. 农业科技通讯, 1985,(11):21. |
Grape Breeding Group, Fruit Tree Research Institute, Chinese Academy of Agricultural Sciences. Fresh grape varieties - Zhana Pannonia Red Fuji heiolin[J] Agricultural Science and Technology Communication, 1985,(11): 21. | |
[43] | 陈虎. 优良无核葡萄鲜食品种-1124[J]. 新疆农业科技, 1999,(6):24. |
Chen Hu. Excellent seedless grape fresh food variety-1124[J]. Xinjiang Agricultural Science and Technology, 1999,(6): 24. | |
[44] | 宗丽荣. 蜜红葡萄选育初报[J]. 中国果业信息, 2009,(4):74-75. |
ZONG Lirong. Preliminary report on the selection of honey red grape[J]. China Fruit Industry Information, 2009,(4): 74-75. | |
[45] | 孙磊, 张国军, 闫爱玲, 等. ‘瑞都’系列早熟葡萄新品种[J]. 中外葡萄与葡萄酒, 2016,(5):108-110. |
SUN LEI, ZHANG Guojun, YAN ailing, et al. New early maturing grape varieties of 'ruidu' series[J]. Sino-Overseas Grapevine & Wine, 2016,(5): 108-110. | |
[46] | 李峰. “京”系列葡萄品种在温室中的促成栽培表现[J]. 北方园艺, 2016,(4):56-57. |
LI Feng. Promoting cultivation performance of "Jing" series grape varieties in greenhouse[J]. Northern Horticulture, 2016,(4): 56-57. | |
[47] | 张立. 香妃葡萄新品种[J]. 技术与市场, 2009,(5):111. |
ZHANG Li. New varieties of Xiangfei grape[J]. Technology and Market, 2009,(5): 111. | |
[48] | 梁飞林, 华珍慧. 提高葡萄品种里扎马特产量和品质的综合措施[J]. 甘肃农业科技, 2004,(7):56. |
LIANG Feilin, HUA Zhenhui. Comprehensive measures to improve the yield and quality of grape variety Rizamat[J]. Gansu Agricultural Science and Technology, 2004,(7): 56. | |
[49] | 钱东南. 特早熟葡萄新品种矢富罗莎[J]. 四川农业科技, 2003,(9):16. |
QIAN Dongnan. New super early maturing grape variety Yafu Rosa[J]. Sichuan Agricultural Science and Technology, 2003,(9): 16. | |
[50] | 方铁飞. 美人指葡萄的特征特性与优质丰产栽培技术[J]. 农业科技通讯, 2018,(8):349-350. |
FANG Tiefei. Characteristics and high-quality and high-yield cultivation techniques of Manicure grape[J]. Bulletin of Agricultural Science and Technology, 2018,(8): 349-350. | |
[51] | 魏灵珠. 葡萄新品种:‘宇选1号’的选育[J]. 果树学报, 2012,(4):708-709. |
WEI Lingzhu. Breeding of a new grape variety, 'Yuxuan No.1'[J]. Journal of Fruits, 2012,(4): 708-709. | |
[52] | 李思胖. 优质葡萄品种红宝石在浠水地区的引种表现及丰产栽培技术[J]. 现代农业科技, 2018,(9):100-101. |
LI Sipang. Introduction performance and high-yield cultivation technology of high-quality grape variety ruby in Xishui area[J]. Modern Agricultural Science and Technology, 2018,(9): 100-101. | |
[53] | 刘小军. 一种叶酸的酶联免疫快速检测试剂盒的研制[J]. 食品工业科技, 2013, 34(23):303-306,310. |
LIU Xiaojun. Development of an enzyme linked immunosorbent assay kit for folate[J]. Food Industry Science and Technology, 2013, 34(23): 303-306, 310. | |
[54] | 李贞. ELISA方法检测牛奶中叶酸含量[J]. 食品研究与开发, 2016, 37(19):137-141. |
LI Zhen. Detection of folic acid content in milk by ELISA[J]. Food Research and Development, 2016, 37(19): 137-141. | |
[55] | 解鑫. 食品安全质量检测学报[J]. 2019, 10(21):7290-7294. |
XIE Xin. Journal of food safety and quality inspection[J]. 2019, 10(21):7290-7294. | |
[56] | 李江. 酶联免疫法快速检测奶粉中的叶酸[J]. 中国乳品工业, 2017, 45(10): 37-38,50. |
LI Jiang. Rrapid detection of folic acid in milk powder by enzyme linked immunosorbent assay[J]. China Dairy Industry, 2017, 45(10): 37-38,50. | |
[57] | 王发明, 李洁维, 叶开玉, 等. 41份葡萄种质遗传多样性的ISSR和SCoT对比分析[J]. 广西植物, 2017,(1):1-8 |
WANG Fanfan, LI Jiewei, YE Kaiyu, et al. Comparative analysis of ISSR and Scot on genetic diversity of 41 Grape Germplasm[J]. Guihaia, 2017,(1): 1-8. | |
[ 58] | 张富民, 赖呈纯, 黄贤贵, 等. 196份福建葡萄品种资源亲缘关系的ISSR分析[J]. 福建农业学报, 2018,(3): 263-268. |
ZHANG Fumin, LAI Chengchun, HUANG Xiangui, et al. ISSR analysis of 196 Fujian grape variety resources[J]. Fujian Journal of Agricultural Sciences, 2018,(3): 263-268. | |
[59] | 吴子龙, 方连玉, 王军, 等. 15份葡萄种质亲缘关系的ISSR分析[J]. 果树学报, 2006,(4):605-608. |
WU Zilong, FANG Lianyu, WANG Jun, Shen Yujie. ISSR analysis of 15 Grape Germplasm[J]. Journal of Fruit Science, 2006,(4): 605-608. | |
[60] | 张永福, 陈泽斌, 彭声静, 等. 弥勒市8个主栽葡萄品种亲缘关系的ISSR鉴定[J]. 昆明学院学报, 2014,(6):23-26. |
ZHANG Yongfu, CHEN Zebin, PENG Shengjing, et al. ISSR identification of the genetic relationship of eight main grape varieties in Maitreya[J]. Journal of Kunming University, 2014,(6): 23-26. | |
[61] | 唐宇宏, 白庆武, 林佳志, 等. 黑龙江省西部葡萄的ISSR分析[J]. 高师理科学刊, 2004, 24(4) :46-48. |
TANG Yuhong, BAI Qingwu, LIN Jiazhi, et al. ISSR analysis of grapes in Western Heilongjiang Province[J]. Journal of Science of Teachers' College and University, 2004, 24(4): 46-48. | |
[62] | 张永辉, 刘崇怀, 樊秀彩, 等. ISSR 标记在中国野生葡萄分类中的应用[J]. 果树学报, 2011, 28(3) :406-412. |
ZHANG Yonghui, LIU chonghuai, FAN Xiucai, et al. Application of ISSR markers in classification of wild grapes in China[J]. Journal of Fruit Science, 2011, 28(3): 406-412. | |
[63] |
崔鹏, 李波, 吴月燕, 等. 南方鲜食葡萄品种遗传多样性的ISSR分析[J]. 核农学报, 2013,(9):1270-1275.
DOI |
CUI Peng, LI Bo, WU Yueyan, et al. ISSR analysis of genetic diversity of Southern grape varieties[J]. Journal of Nuclear Agriculture, 2013,(9): 1270-1275. | |
[64] | 吴代东, 陈立, 李洪艳, 等. 36个葡萄品种遗传多样性ISSR分析[J]. 中外葡萄与葡萄酒, 2018,(4):34-37. |
WU Daidong, CHEN Li, LI Hongyan, et al. ISSR analysis of genetic diversity of 36 grape varieties[J]. Sino-Overseas Grapevine & Wine, 2018,(4): 34-37. | |
[65] | 陈小宇, 刘林德, 葛宜和, 等. ‘蛇龙珠’葡萄新株系遗传多样性的SSR、ISSR和VvmybA1基因片段分析[J]. 果树学报, 2017,(2):145-156. |
CHEN Xiaoyu, LIU Linde, GE Yihe, et al. SSR, ISSR and vvmyba1 gene fragment analysis of genetic diversity of new grape strains of 'serpongzhu'[J]. Journal of Fruit Science, 2017,(2): 145-156. | |
[66] | 赖呈纯, 范丽华, 黄贤贵, 等. 葡萄品种资源遗传关系的ISSR分析[J]. 福建农林大学学报(自然科学版), 2014,(1):20-28. |
LAI Chengchun, FAN Lihua, HUANG Xiangui, et al. ISSR analysis of genetic relationship of grape variety resources[J]. Journal of Fujian A & F University (Natural Science Ed.), 2014,(1): 20-28. |
[1] | TIAN Feng, BAO Dongdong, XU Zhiming, YANG Jing, LI Juan, LIU Xiaohong, TAN Huilin, ZHANG Zhidong. Evaluation of Rapid Detection Method for Carbofuran Residues in Apples [J]. Xinjiang Agricultural Sciences, 2023, 60(3): 683-688. |
[2] | LIANG Ju, LIU Guohong, WANG Baomin, HE Qiao, Abulaike Niya zi, GUO Hongmei, LI xingting, REN hongsong. Comparative analysis of fruit folic acid content and ISSR in different grape germplasm resources [J]. Xinjiang Agricultural Sciences, 2023, 60(12): 2982-2992. |
[3] | 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. |
[4] | LUO Ying, Nurziya Yalimaimaiti, JIA Wenjie, LIU Jieying, JIA Peisong. Identification and genetic diversity of wild Macrolepiota in Xinjiang [J]. Xinjiang Agricultural Sciences, 2023, 60(10): 2501-2508. |
[5] | WU Qiaoyu, HE Tianjiu. Morphological and ISSR Analysis of Purple Sweet Potato Resources [J]. Xinjiang Agricultural Sciences, 2022, 59(7): 1625-1631. |
[6] | BAI Jianyu, LUO Da, LIU Zhengxing, LI Hong. Molecular Detection of Jujube Mosaic Virus [J]. Xinjiang Agricultural Sciences, 2022, 59(3): 657-662. |
[7] | TAN Huilin, WU Zhonghong, JIN Yongseng, NIU Guiyang, BAO Dongdong, CHEN Haiyuan, ZHANG Zhidong. Determination of StaphlococcusAureus in Food and Evaluation of the Fast Kit [J]. Xinjiang Agricultural Sciences, 2022, 59(2): 410-416. |
[8] | 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. |
[9] | WANG Dongmei, PAN Hongsheng, LI Haiqiang, DING Ruifeng, Akedan Wuwaishi, LIU Jian, LI Haobin. Quantitatively Evaluate the Control Function of Predatory Natural Enemies on Cotton Aphids by DNA Molecular Detection Technology [J]. Xinjiang Agricultural Sciences, 2022, 59(11): 2661-2667. |
[10] | LUO Ying, GUAN Yongqiang, JIA Peisong, Nurziya Yalimaimaiti, QI Haoxuan, ZHAO Zhenhao, WEI Peng, JIA Wenjie. Genetic Diversity of Wild Agaricus sinodeliciosus in Xinjiang [J]. Xinjiang Agricultural Sciences, 2022, 59(11): 2707-2713. |
[11] | SUN Xiaojun, ZHOU Tingting, Yushanjing Maimaiti, HE Wei, LUO Wenfang, XU Jianjun, Abudusaimaiti Tuersong. Identification of the Viral Pathogens Infecting Tomato [J]. Xinjiang Agricultural Sciences, 2021, 58(1): 99-106. |
[12] | ZHANG Yong-bing, LI Mei-hua, ZHANG Xue-jun, YANG Yong, YI Hong-ping. Genetic Analysis of Huanghou and Its Sister Lines and Parent Materials Based on ISSR Markers [J]. Xinjiang Agricultural Sciences, 2019, 56(5): 834-840. |
[13] | MENG Xin-tao, ZHANG Ting, XU Ming-qiang, ZOU Shu-ping, MA Yan, ZHANG Qian. Detection of Authenticity of Mutton withGas Chromatography-Ion Mobility Spectrometry(GC-IMS) [J]. Xinjiang Agricultural Sciences, 2019, 56(10): 1939-1947. |
[14] | LIN Ming, DENG Chao-hong, PAN Jing-hai, CHENG You-qiang, LIU Hua-jun, BAI Xiao-shan, XIAO Li, LI Cheng-ye. Diversity of Seed-Watermelon Germplasms in Xinjiang Based on ISSR Markers Analysis [J]. Xinjiang Agricultural Sciences, 2018, 55(9): 1608-1615. |
[15] | BAI Jian-yu, BI Si-jin, SONG Feng-hui, SHI Yan- jiang. Development and Application of PCR for Detection of Alternaria alternata Causing Jujube Black Spot in Aksu [J]. Xinjiang Agricultural Sciences, 2018, 55(9): 1674-1681. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||