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作物学报 ›› 2009, Vol. 35 ›› Issue (8): 1468-1473.doi: 10.3724/SP.J.1006.2009.01468

• 作物遗传育种·种质资源·分子遗传学 • 上一篇    下一篇

亚麻木质素合成关键酶基因表达分析

王进1,陈信波1,2,*,高原2,张彦红1,龙松华1,邓欣1,何东锋2,王玉富1   

  1. 1中国农业科学院麻类研究所/农业部麻类遗传改良与工程微生物重点实验室,湖南长沙410205;2湖南农业大学作物基因工程湖南省重点实验室,湖南长沙410128
  • 收稿日期:2008-11-13 修回日期:2009-03-20 出版日期:2009-08-12 网络出版日期:2009-06-10
  • 通讯作者: 陈信波,E-mail:chenxinbo@hotmail.com;Tel:0731-8998533
  • 基金资助:

    本研究由农业公益性行业科研专项(nyhyzx07-018-03)和中国农业科学院杰出人才科研启动经费资助。

Expression of Critical Lignin Metabolism Genes in Flax(Linum usitatissimum)

WANG Jin1,CHEN Xin-Bo1,2,*,GAO Yuan2,ZHANG Yan-Hong1,LONG Song-Hua1,DENG Xin1,HE Dong-Feng2,WANG Yu-Fu1   

  1. 1Institute of Bast Fiber Crops,Chinese Academy of Agricultural Sciences/Key Laboratory of Genetic Improvement & Engineering Microbiology for Bast Fiber Crops,Ministry of Agriculture,Changsha 410205,China;2Crop Gene Engineering Key Laboratory of Hunan Province,Hunan Agricultural University,Changsha 410128,China
  • Received:2008-11-13 Revised:2009-03-20 Published:2009-08-12 Published online:2009-06-10
  • Contact: CHEN Xin-Bo,E-mail:chenxinbo@hotmail.com;Tel:0731-8998533

PDF

1601

被引次数

9

摘要:

以亚麻(Linum usitatissimum)栽培品种白花为材料,采用半定量RT-PCR方法对亚麻木质素合成关键酶基因CCoAOMT14CL14CL2COMTF5H1F5H2F5H3在不同组织及不同时期木质部、韧皮部的表达规律进行了研究。结果显示, F5H1在根部未表达外,其他基因在幼苗、根、花期木质部、花期韧皮部、叶、花和幼果中均有不同程度表达。CCoAOMT1在各部位都有较高的表达。24CL之间和3F5H基因之间的部位表达的差异存在一定互补性。在韧皮部中,各基因均在幼嫩(30 d)阶段表达量最低;除4CL2在花期(60 d)达到表达高峰外,其他基因均在花后(70 d)表达量最高;4CL1在各时期均有较强表达,而F5H3在各时期弱表达。在木质部中,除4CL1在各时期均表达弱和F5H1在花前期为表达高峰外,其余基因均在幼嫩阶段表达量最高;随后逐渐降低,在花期后表达量大幅降低;与其他基因的明显区别在于各时期4CL1的表达量以韧皮部明显高于木质部。

关键词: 亚麻, 木质素, 表达分析, 半定量RT-PCR

Abstract:

Flax (Linum usitatissimum) is an important bast fiber crop. High lignin content in the flax fiber greatly affects the performance and quality in the flax textile industry. CCoAOMT1, 4CL1, 4CL2, COMT, F5H1, F5H2,and F5H3 are putative genes coding the key enzymes involved in lignin accumulation. Expression patterns of these genes were analyzed by semi-quantitative RT-PCRin different flax tissues and in xylem and phloem (bark) at different development stages of the variety Baihua. The results revealed that All genes were detected to express in seedlings, roots, florescent xylem, florescent phloem, leaves, flowers and young fruits excluding F5H1 in roots. Expression of CCoAOMT1 was consistently high in all the tissues detected. There existed complementary expression between two 4CL genesand among the three F5H genes in various tissues. In the phloem, all genes lowly expressed except for 4CL2 at florescence and highly expressed after flowering. Expression of 4CL1 was high, and that of F5H3 was low in the phloem at all stages compared with that of other genes. In the xylem, expression of 4CL1 gene was low at all the developing stages, that of F5H1 reached a peak before flowering and that of the other genes in the xylem reached the highest at 30 d after emergence of seedlings and gradually declined at late growing stages, with a sharp decrease to very lower level after flowering. The expression of 4CL1compared with other genes was significantly higher in phloem than in xylem.

Key words: Flax, Lignin, Expression analysis, Semi-quantitative PT-PCR


[1] Boerjan W, Ralph J, Baucher M. Lignin biosynthesis. Annu Rev Plant Biol, 2003, 54: 519-546

[2] Humphreys J M, Chapple C. Rewriting the lignin roadmap. Plant Biol, 2002, 5: 224-229

[3] Hoffmann L, Maury S, Bergdoll M, Thion L, Erard M, Legrand M. Identification of the enzymatic active site of tobacco caffeoyl-coenzyme A O-methyltransferase by site-directed mutagenesis. J Biol Chem, 2001, 276: 36831-36838

[4] Osakabe K, Tsao C C, Li L, Popko J L, Umezawa T, Carraway D T, Smeltzer R H, Joshi C P, Chiang V L. Coniferyl aldehyde 5-hydroxylation and methylation direct syringyl lignin biosynthesis in angiosperms. Proc Natl Acad Sci USA, 1999, 96: 8955-8960

[5] Humphreys J M, Hemm M R, Chapple C. New routes for lignin biosynthesis defined by biochemical characterization of recombinant ferulate 5-hydroxylase, a multifunctional cytochrome P450-dependent monooxygenase. Proc Natl Acad Sci USA, 1999, 96: 10045-10050

[6] Li L, Popko J L, Umezawa T, Chiang V L. 5-hydroxyconiferyl aldehyde modulates enzymaticmethylation for syringyl monolignol formation, a new view of monolignol biosynthesis in angiosperms. J Biol Chem, 2000, 275: 6537-6545

[7] Martz F, Maury S, Pincon G, Legrand M. cDNA cloning, substrate specificity and expression study of tobacco caffeoyl-CoA3-O-methyltransferase, a lignin biosynthetic enzyme. Plant Mol Biol, 1998, 36: 427-437

[8] Zhao H-Y(赵华燕), Shen Q-X(沈庆喜), Lü S-Y(吕世友), Wang T(王台), Song Y-R(宋艳茹). Characterization of three rice CCoAOMT genes. Chin Sci Bull (科学通报), 2004, 49(14): 1390-1394 (in Chinese with English abstract)

[9] Fellenberg C, Milkowski C, Hause B, Lange P, Bottcger C, Schmidt J, Vogt T. Tapetum-specific location of a cation-dependent O-methyltransferase in Arabidopsis thaliana. Plant J, 2008, 56: 132-145

[10] Ruegger M, Meyer K, Cusumano J C, Chapple C. Regulation of ferulate-5-hydroxylase expression in Arabidopsis in the context of sinapate ester biosynthesis. Plant Physiol, 1999, 119: 101-110

[11] Gao Y(高原), Chen X-B(陈信波), Long S-H(龙松华), Deng X(邓欣), Zou J(邹杰), Liu A-L(刘爱玲). Cloning of partial sequences of critical genes involved in flax liglin metablism and sequence analysis. Acta Agron Sin (作物学报), 2008, 34(2): 337-340 (in Chinese with English abstract)


[12] Kumar A E, Ellis B. 4-Coumarate: CoA ligase gene family in Rubus aeidus: cDNA structures, evolution, and expression. Plant Mol Biol, 2003, 31: 327-314

[13] Ma Q H, Xu Y, Lin Z B, He P. Cloning of cDNA encoding COMT from wheat which is differentially expressed in lodging-sensitive and -resistant cultivars. J Exp Bot, 2002, 53: 2281-2282

[14] Day A, Ruel K, Neutelings G, Cronier D, David H, Hawkins S, Chabbret B. Lignification in the flax stem: Evidence for an unusual lignin in bast fibers. Planta, 2005, 222: 234-245

[15] Zhao Y-L(赵艳玲), Lu H(陆海), Tao X-J(陶霞娟), Chen X-M(陈雪梅), Jiang X-N(蒋湘宁).Modulate the lignin biosynthesis by expression GRP1.8 promoter: Anti-4CL1 gene in transgenic tobacco. J Beijing For Univ (北京林业大学学报), 2003, 25(4): 16-20 (in Chinese with English abstract)

[16] Melissa J, Deyholos M K. Microarray analysis of flax (Linum usitatissimum L.) stems identifies transcripts enriched in Wbre-bearing phloem tissues. Mol Genet Genomics, 2007, 278: 149-165

[17] Lee D, Meyer K, Chapple C, Douglas C J. Antisense suppression of 4-coumarate: Coenzyme A ligase activity in Arabidopsis leads to altered lignin subunit composition. Plant Cell, 1997, 9: 1985-1998

[18] Kajita S, Hishiyama S, Tomimura Y, Katayama Y, Omori S. Structural characterization of modified lignin in transgenic tobacco plants in which the activity of 4-coumarate: Coenzyme A ligase is depressed. Plant Physiol, 1997, 114: 871-879

[19] Kajita S, Ishifuji M, Ougiya H, Hara S, Kawabata H, Morohoshi N, Katayama Y. Improvement in pulping and bleaching properties of xylem from transgenic tobacco plants. J Sci Food Agric, 2002, 82: 1216-1223
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