辣椒杂志
辣椒雜誌
랄초잡지
JOURNAL OF CHINA CAPSICUM
2012年
3期
1-5
,共5页
邓明华%文锦芬%朱海山%马春花%邹学校
鄧明華%文錦芬%硃海山%馬春花%鄒學校
산명화%문금분%주해산%마춘화%추학교
辣椒素%生物合成%基因
辣椒素%生物閤成%基因
랄초소%생물합성%기인
capsaicin%biosynthesis%gene
辣椒素是一种仅在辣椒属植物中合成的十分重要的次生代谢产物,其生物合成受遗传和环境的双重影响。辣椒中辣椒素含量的高低决定辣度的大小。辣椒素类物质是由香草基胺与C9-C11支链脂肪酸合成,前者来源苯丙氨基酸途径,后者来源于缬氨酸或亮氨酸。参与辣椒素合成途径中目前已知的酶有:苯丙氨酸裂解酶(PAL)、肉桂酸水解酶(Ca4H)、对香豆酸水解酶(C3H)、咖啡酸转甲氧基酶(COMT)、氨基转移酶(pAMT)、支链氨基酸转移酶(BCAT)、β-酮脂酰-ACP合酶(KAS)、酰基运载蛋白(ACL)、酰基-ACP-硫酯酶(FAT)、去饱和酶、酰基CoA合成酶(ACS)和辣椒素合成酶(capsaicin synthase,CS)等。目前,参与辣椒素类物质生物合成的PAL、Ca4H、COMT、pAMT、KAS、ACL、FAT、ACS和CS基因已经克隆出来,相应功能也做了初步的研究。综述了辣椒素生物合成相关基因的克隆和特性研究的最新进展,并探讨了辣椒素基因研究存在的问题和今后研究的方向。
辣椒素是一種僅在辣椒屬植物中閤成的十分重要的次生代謝產物,其生物閤成受遺傳和環境的雙重影響。辣椒中辣椒素含量的高低決定辣度的大小。辣椒素類物質是由香草基胺與C9-C11支鏈脂肪痠閤成,前者來源苯丙氨基痠途徑,後者來源于纈氨痠或亮氨痠。參與辣椒素閤成途徑中目前已知的酶有:苯丙氨痠裂解酶(PAL)、肉桂痠水解酶(Ca4H)、對香豆痠水解酶(C3H)、咖啡痠轉甲氧基酶(COMT)、氨基轉移酶(pAMT)、支鏈氨基痠轉移酶(BCAT)、β-酮脂酰-ACP閤酶(KAS)、酰基運載蛋白(ACL)、酰基-ACP-硫酯酶(FAT)、去飽和酶、酰基CoA閤成酶(ACS)和辣椒素閤成酶(capsaicin synthase,CS)等。目前,參與辣椒素類物質生物閤成的PAL、Ca4H、COMT、pAMT、KAS、ACL、FAT、ACS和CS基因已經剋隆齣來,相應功能也做瞭初步的研究。綜述瞭辣椒素生物閤成相關基因的剋隆和特性研究的最新進展,併探討瞭辣椒素基因研究存在的問題和今後研究的方嚮。
랄초소시일충부재랄초속식물중합성적십분중요적차생대사산물,기생물합성수유전화배경적쌍중영향。랄초중랄초소함량적고저결정랄도적대소。랄초소류물질시유향초기알여C9-C11지련지방산합성,전자래원분병안기산도경,후자래원우힐안산혹량안산。삼여랄초소합성도경중목전이지적매유:분병안산렬해매(PAL)、육계산수해매(Ca4H)、대향두산수해매(C3H)、가배산전갑양기매(COMT)、안기전이매(pAMT)、지련안기산전이매(BCAT)、β-동지선-ACP합매(KAS)、선기운재단백(ACL)、선기-ACP-류지매(FAT)、거포화매、선기CoA합성매(ACS)화랄초소합성매(capsaicin synthase,CS)등。목전,삼여랄초소류물질생물합성적PAL、Ca4H、COMT、pAMT、KAS、ACL、FAT、ACS화CS기인이경극륭출래,상응공능야주료초보적연구。종술료랄초소생물합성상관기인적극륭화특성연구적최신진전,병탐토료랄초소기인연구존재적문제화금후연구적방향。
Capsaicin is a very important secondary metabolite that is peculiar to capsicum. The content of capsaicin would determine the degree of hot pepper pungency. Capsaicin biosynthesis is regulated by genetics and environment in hot pepper. It has been proposed that capsaicinoids are synthesized by the condensation of vanillylamine with C9 to Cll isotype branched-chain fatty acids; the former is derived from phenylpropanoid pathway, the latter from valinc or leucine. 11 enzymes which putatively catalyze different reactions involved in capsaicinoids production have been described, i.e., phenylalanine ammonialyase (PAL), einnamic acid 4-hydroxylase (CagH), coumaroyl shikimate/quinate 3-hydroxylase (Ca3H), caffeic acid O-methyl transferase (COMT), putative aminotransferase (pAMT), branched-chain amino acid transferase (BCAT), ~-ketoacyl ACP synthase (KAS), acyl carrier protein (ACL), acyl-ACP thioesterase (FAT), acyl-CoA synthetase (ACS) and capsaicin synthase (CS). The genes encoding the PAL,CadH,COMT,pAMT,KAS,ACL,FA T,ACS and CS have been cloned and some of them have been functionally characterized. In this review, the cloning and characterization of several genes related to capsaicinoid biosynthetic pathway were summarized, some problems and tendency of gene research about capsaicin biosynthesis were also discussed.