›› 2013, Vol. 21 ›› Issue (3): 413-419.DOI: 10.11733/j.issn.1007-0435.2013.03.001
HUANG Chun-qiong, LIU Guo-dao, BAI Chang-jun
Received:
2012-11-30
Revised:
2013-01-05
Online:
2013-06-15
Published:
2013-06-05
黄春琼, 刘国道, 白昌军
作者简介:
黄春琼(1982- ),女,云南宣威人,博士,助研,主要从事热带牧草种质资源与育种研究,E-mail:huangchunqiong44@163.com
基金资助:
CLC Number:
HUANG Chun-qiong, LIU Guo-dao, BAI Chang-jun. Application Advances of Genetic Engineering in Pasture Breeding[J]. , 2013, 21(3): 413-419.
黄春琼, 刘国道, 白昌军. 基因工程在牧草育种中的应用进展[J]. , 2013, 21(3): 413-419.
[1] 吴乃虎. 基因工程原理:下册[M]. 2版. 北京:科学出版社,2001:172-173 [2] 戴军,郑家明,张鹏.生物技术在牧草育种上的应用[J].辽宁农业科学,2004(3):32-33 [3] 马江涛,王宗礼,黄东光,等. 基因工程在牧草培育中的应用[J]. 草业学报,2010,19(6):248-262 [4] Kazan K, Goulter K C, Way H M, et al. Expression of a pathogenesis-related peroxidase of Stylosanthes humilis in transgenic tobacco and canola and its effect on disease development[J]. Plant Science,1998,136(2):207-217 [5] Hill K K, Jarvis-Eagan N, Halk E L, et al. The development of virus-resistant alfalfa Medicago sativa L.[J]. Biotechnology,1991,9(4):373-377 [6] Chu P, Holloway B, Venables I, et al. Development of transgenic white clover (Trifolium repens) with resistance to clover yellow vein virus[C]//Abstracts 2nd International Symposium Molecular Breeding of Forage Crops, Lorne and Hamilton, Victoria.2000:321 [7] Xu J P, Schubert J, Altpeter F. Dissection of RNA-mediated ryegrass mosaic virus resistance in fertile transgenic perennial ryegrass (Lolium perenne L.)[J]. The Plant Journal,2001,26(3):265-274 [8] Kelemu S, Jiang C S, Huang G X, et al. Genetic transformation of the tropical forage legume Stylosanthes guianensis with a rice-chitinase gene confers resistance to Rhizoctonia foliar blight disease[J]. African Journal of Biotechnology,2005,4(10):1025-1033 [9] Hipskind J D, Paiva N L. Constitutive accumulation of a resveratrol-glucoside in transgenic alfalfa increases resistance to Phoma medicaginis[J]. Molecular Plant-Microbe Interactions,2000,13(5):551-562 [10] Yang S M, Gao M Q, Xu C W, et al Alfalfa benefits from Medicago truncatula: the RCT1 gene from M. truncatula confers broadspectrum resistance to anthracnose in alfalfa[J]. Proceedings of the National Academy of Sciences,2008,105(34): 12164-12169 [11] 王冬梅,唐燕琼,周鹏. 热研二号柱花草转化体系优化的研究[J]. 草业科学,2005,22(10):25-30 [12] 马生健,徐碧玉,曾富华,等. 高羊茅抗真菌病基因转化的研究[J]. 园艺学报,2006,33(6):1275-1280 [13] 孔政,赵德刚. 苦瓜几丁质酶基因-益母草抗菌肽基因遗传转化黑麦草[J]. 分子植物育种,2008,6(2):281-285 [14] 曲静,王丕武,关淑艳,等. 农杆菌介导轮状病毒抗原蛋白基因VP7转化紫花苜蓿的研究[J]. 中国草地学报,2011,33(5):21-25 [15] 杨红军,王豪举. 新城疫病毒HN基因的克隆及在苜蓿中的表达[J]. 中国兽医杂志,2011,47(1):3-5 [16] Thomas J C, Wasmann C C, Echt C, et al. Introduction and expression of an insect proteinase inhibitor in alfalfa (Medicago sativa L.)[J]. Plant Cell Reports,1994,14(1):31-36 [17] Narváez-Vásquez J, Lorozco-Cárdenas M L, Ryan C A. Differential expression of a chimeric CaMV-tomato proteinase Inhibitor I gene in leaves of transformed nightshade, tobacco and alfalfa plants[J]. Plant Molecular Biology,1992,20(6):1149-1157 [18] Nicolai S, Menachem K, Jaideep M, et al. A Synthetic cryIC gene, encoding a Bacillus thuringiensis δ-endotoxin, confers Spodoptera resistance in alfalfa and tobacco[J]. Proceeding of the National Academy of Sciences of the United States of America,1996,93(26):15012-15017 [19] 佘建明,张保龙,何晓兰,等. 草地早熟禾农杆菌介导法基因转化条件[J]. 草地学报,2005,13(1):39-42,70 [20] Brewbaker J L. Registration of KX2-Hawaii, interspecific-hybrid Leucaena[J]. Journal of Plant Registrations,2008,2(3):190-193 [21] Altpeter F, Xu J P. Rapid production of transgenic turfgrass (Festuca rubra L.) plants[J]. Journal of Plant Physiology,2000,157(4):441-448 [22] Denchev P D, Songstad D D, McDaniel J K, et al. Transgenic orchardgrass (Dactylis glomerata) plants by direct embryogenesis from microprojecticle bombarded leaf cells[J]. Plant Cell Reports,1997,16(12):813-819 [23] Wang Z Y, Takamizo T, Iglesias V A, et al. Transgenic plants of tall fescue (Festuca arundinacea Schreb.) obtained by direct gene transfer to protoplasts[J]. Biotechnology,1992,10(6):691-696 [24] 刘艳芝,邢少辰,王玉民,等. Bar基因转化豆科牧草百脉根的研究[J]. 吉林农业科学,2006,31(5):45-47,55 [25] Kuai B, Dalton S J, Bettany A J E, et al. Regeneration of fertile transgenic tall fescue plants with a stable highly expressed foreign gene[J]. Plant Cell, Tissue and Organ Culture,1999,58(2):149-154 [26] Smith R, Grando M, Li Y, et al. Transformation of bahiagrass (Paspalum notatum Flugge)[J]. Plant Cell Reports,2002,20(11):1017-1021 [27] Dalton S J, Bettany A J E, Timms E, et al. Co-transformed, diploid Lolium perenne (perennial ryegrass) Lolium multiflorum (Italian ryegrass) and Lolium temulentum (darnel) plants produced by microprojectile bombardment[J]. Plant Cell Reports,1999,18(9):721-726 [28] 马忠华,张云芳,徐传祥,等. 早熟禾的组织培养和基因枪介导的基因转化体系的初步建立[J]. 复旦大学学报:自然科学版,1999,38(5):540-544 [29] Girgi M, O'Kennedy M M, Morgenstern A, et al. Transgenic and herbicide resistant pearl millet (Pennisetum glaucum L.) R.Br. via microprojectile bombardment of scutellar tissue[J]. Molecular Breeding,2002,10(4):243-252 [30] O'Kennedy M M, Burger J T, Botha F C. Pearl millet transformation system using the positive selectable marker gene phosphomannose isomerase[J]. Plant Cell Reports,2004,22(9):684-690 [31] Zhao J S, Ren W, Zhi D Y, et al. Arabidopsis DREB1A/CBF3 bestowed transgenic tall fescue increased tolerance to drought stress[J]. Plant Cell Reports,2007,26(9):1521-1528 [32] 张丽君,程林梅,杜建中,等. 导入APX基因提高了普那菊苣植株的抗逆性[J]. 草地学报,2012,20(1):152-158 [33] McKersie B D, Chen Y R, de Beus M, et al. Superoxide dismutase enhances tolerance of freezing stress in transgenic alfalfa (Medicago sativa L.)[J]. Plant Physiology,1993,103(4):1155-1163 [34] McKerise B D, Murnaghan J, Jones K S, et al. Iron-superoxide dismutase expression in transgenic alfalfa increases winter survival without a detectable increase in photosynthetic oxidative stress tolerance[J]. Plant Physiology,2000,122(4): 1427-1437 [35] Zhou B Y, Guo Z F, Liu Z L. Effects of abscisic acid on antioxidant systems of Stylosanthes guianensis (Aublet) Sw under chilling stress[J]. Crop Science,2005,45(2):599-605 [36] Zhou B Y, Guo Z F, Xing J P, et al. Nitric oxide is involved in abscisic acid-induced antioxidant activities in Stylosanthes guianensis[J]. Journal of Experimental Botany,2005,56(422):3223-3228 [37] Yang J F, Guo Z F. Cloning of a 9-cis-epoxycarotenoid dioxygenase gene (SgNCED1) from Stylosanthes guianensis and its expression in response to abiotic stresses[J]. Plant Cell Reports,2007,26(8):1383-1390 [38] 张劲松,刘国道,郭振飞. 柱花草编码CP12蛋白的cDNA克隆及其序列分析[J]. 热带作物学报,2011,32(6):1102-1105 [39] 陈玉香,周道玮. 转基因牧草研究进展[J]. 中国草地,2002,24(3):59-63 [40] Jin T C, Chang Q, Li W F, et al. Stress-inducible expression of GmDREB1 conferred salt tolerance in transgenic alfalfa[J]. Plant Cell, Tissue and Organ Culture,2010,100(2):219-227 [41] 付顺华,梁锦锋,季宗富. 植物转基因研究进展[J]. 云南林业科学,2003(1):70-71 [42] 乌艳红,米福贵,李志明,等. 紫花苜蓿GDP解离抑制蛋白基因cDNA的克隆、分析及烟草转化[J]. 草地学报,2011,19(1):157-163 [43] 金太成. 大豆DREB基因GmDREB1改良紫花苜蓿耐盐性的研究. 长春:东北师范大学,2010 [44] 王臻昱,才华,柏锡,等. 野生大豆 GsGST19 基因的克隆及其转基因苜蓿的耐盐碱性分析[J]. 作物学报,2012,38(6):971-979 [45] Baucher M, Bernard-Vailhé M A, Chabbert B, et al. Down-regulation of cinnamyl alcohol dehydrogenase in transgenic alfalfa (Medicago sativa L.) and the effect on lignin composition and digestibility[J]. Plant Molecular Biology,1999,39(3):437-447 [46] Weeks J T, Ye Jingsong, Rommens C M. Development of an in planta method for transformation of alfalfa (Medicago sativa)[J]. Transgenic Research,2008,17(4):587-597 [47] 萨如拉. 用基因工程方法获得低木质素转基因紫花苜蓿的研究. 呼和浩特:内蒙古农业大学,2006 [48] Schroeder H E, Khan M R I, Kinbb W R, et al. Expression of a chicken ovalbumin gene in three lucerne cultivars[J]. Australian Journal of Plant physiology,1991,18(5):495-505 [49] Wandelt C I, Khan M R I, Craig S, et al. Vicilin with carboxy-terminal KDEL is retained in the endoplasmic reticulum and accumulates to high levels in the leaves of transgenic plants[J]. The Plant Journal,1992,2(2):181-192 [50] Ealing P M, Hancock K R, White D W R. Expression of the pea albumin 1 gene in transgenic white clover and tobacco[J]. Transgenic Research,1994,3(6):344-354 [51] Tabe L M, Higgins C M, McNabb W C, et al. Genetic engineering of grain and pasture legumes for improved nutritive value[J]. Genetica,1993,90(2/3):181-200 [52] Khan M R I, Ceriotti A, Tabe L, et al. Accumulation of a sulphur-rich seed albumin from sunflower in the leaves of transgenic subterranean clover (Trifolium subterraneum L.)[J]. Transgenic Research,1996,5(3):179-185 [53] Sharma S B, Hancock K R, Ealing P M, et al. Expression of a sulfur-rich maize seed storage protein, δ-zein, in white clover (Trifolium repens) to improve forage quality[J]. Molecular Breeding,1998,4(5):435-448 [54] Bagga S, Armendaris A, Klypina N, et al. Genetic engineering ruminal stable high methionine protein in the foliage of alfalfa[J]. Plant Science,2004,166(2):273-283 [55] 吕德扬,曹学远,唐顺学,等. 紫花苜蓿外源基因共转化植株的再生[J]. 中国科学:C辑,2000,30(4):342-348 [56] Christiansen P, Gibson J M, Moore A, et al Transgenic Trifolium repens with foliage accumulating the high sulphur protein, sunflower seed albumin[J].Transgenic Research,2000,9(2):103-113 [57] Molving L, Tabe L M, Eggum B O, et al. Enhanced methionine levels and increased nutritive value of seeds of transgenic lupins (Lupinus angustifolius L.) expressing a sunflower seed albumin gene[J]. Proceeding of the National Academy Sciences of the United States of America,1997,94(9416):8393-8398 [58] Avraham T, Badani H, Galili S, et al. Enhanced levels of methionine and cysteine in transgenic alfalfa (Medicago sativa L.) plants over-expressing the Arabidopsis cystathionine γ-synthase gene[J]. Plant Biotechnology Journal,2005,3(1):71-79 [59] Bagga S, Potenza C, Ross J, et al. A transgene for high methionine protein is posttranscriptionally regulated by methionine[J]. In Vitro Cellular and Developmental Biology -Plant,2005,41(6):731-741 [60] Quecini V M, Alves A C, Oliveira C A, et al. Microparticle bombardment of Stylosanthes guianensis: Transformation parameters and expression of a methionine-rich 2S albumin gene[J]. Plant Cell, Tissue and Organ Culture,2006,87(2):167-179 [61] 张改娜,贾敬芬. 豌豆清蛋白1(PA1)基因的克隆及对苜蓿的转化[J]. 草业学报,2009,18(3):117-125 [62] Lees G L. Condensed tannins in some forage Legumes their role in the prevention of ruminant pasture bloat[J]. Basic Life Sciences,1992,59:915-934 [63] Carron T R, Robbins M P, Morris P. Genetic modification of condensed tannin biosynthesis in Lotus corniculatus. 1. Heterologous antisense dihydroflavonol reductase down-regulates tannin accumulation in "hairy root" cultures[J]. Theoretical and Applied Genetics,1994,87(8):1006-1015 [64] Morris P, Robbins M P. Manipulating condensed tannins in forage legumes[M]//McKersie B D, Brown D C W, eds. Biotechnology and the improvement of forage Legumes. Wallingford, UK: CAB International,1997:147-173 [65] Robbins M P, Bavage A D, Strudwicke C, et al. Genetic manipulation of condensed tannins in higher plants. II. Analysis of birdsfoot trefoil plants harboring antisense dihydroflavonol reductase constructs[J]. Plant Physiology,1998,116(3):1133-1144 [66] 董洁,王学敏,王赞,等. 紫花苜蓿二氢黄酮醇还原酶基因MsDFR的克隆与分析[J]. 草业学报,2012,21(2):123-132 |
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