Co-expression of <it>AaPMT </it>and <it>AaTRI </it>effectively enhances the yields of tropane alkaloids in <it>Anisodus acutangulus </it>hairy roots

Co-expression of <it>AaPMT </it>and <it>AaTRI </it>effectively enhances the yields of tropane alkaloids in <it>Anisodus acutangulus </it>hairy roots

<p>Abstract</p> <p>Background</p> <p>Tropane alkaloids (TA) including anisodamine, anisodine, hyoscyamine and scopolamine are a group of important anticholinergic drugs with rapidly increasing market demand, so it is significant to improve TA production by biotechnologi...

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Main Authors: Zhang Ang, Fu Xueqing, Zhou Wentao, Luo Xiuqin, Yang Sheng, Kai Guoyin, Zhang Yan, Xiao Jianbo
Format: Article
Language:English
Published: BMC 2011-04-01
Series:BMC Biotechnology
Online Access:http://www.biomedcentral.com/1472-6750/11/43
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spelling doaj-629ecd1c248e4c089af2e1d3e7b8c7f72020-11-25T03:37:34ZengBMCBMC Biotechnology1472-67502011-04-011114310.1186/1472-6750-11-43Co-expression of <it>AaPMT </it>and <it>AaTRI </it>effectively enhances the yields of tropane alkaloids in <it>Anisodus acutangulus </it>hairy rootsZhang AngFu XueqingZhou WentaoLuo XiuqinYang ShengKai GuoyinZhang YanXiao Jianbo<p>Abstract</p> <p>Background</p> <p>Tropane alkaloids (TA) including anisodamine, anisodine, hyoscyamine and scopolamine are a group of important anticholinergic drugs with rapidly increasing market demand, so it is significant to improve TA production by biotechnological approaches. Putrescine <it>N</it>-methyltransferase (PMT) was considered as the first rate-limiting upstream enzyme while tropinone reductase I (TRI) was an important branch-controlling enzyme involved in TA biosynthesis. However, there is no report on simultaneous introduction of <it>PMT </it>and <it>TRI </it>genes into any TA-producing plant including <it>Anisodus acutangulus </it>(<it>A. acutangulus</it>), which is a Solanaceous perennial plant that is endemic to China and is an attractive resource plant for production of TA.</p> <p>Results</p> <p>In this study, 21 <it>AaPMT </it>and <it>AaTRI </it>double gene transformed lines (PT lines), 9 <it>AaPMT </it>single gene transformed lines (P lines) and 5 <it>AaTRI </it>single gene transformed lines (T lines) were generated. RT-PCR and real-time fluorescence quantitative analysis results revealed that total <it>AaPMT </it>(<it>AaPMT T</it>) and total <it>AaTRI </it>(<it>AaTRI T</it>) gene transcripts in transgenic PT, P and T lines showed higher expression levels than native <it>AaPMT </it>(<it>AaPMT E</it>) and <it>AaTRI </it>(<it>AaTRI E</it>) gene transcripts. As compared to the control and single gene transformed lines (P or T lines), PT transgenic hairy root lines produced significantly higher levels of TA. The highest yield of TA was detected as 8.104 mg/g dw in line PT18, which was 8.66, 4.04, and 3.11-times higher than those of the control (0.935 mg/g dw), P3 (highest in P lines, 2.004 mg/g dw) and T12 (highest in T lines, 2.604 mg/g dw), respectively. All the tested samples were found to possess strong radical scavenging capacity, which were similar to control.</p> <p>Conclusion</p> <p>In the present study, the co-expression of <it>AaPMT </it>and <it>AaTRI </it>genes in <it>A. acutangulus </it>hairy roots significantly improved the yields of TA and showed higher antioxidant activity than control because of higher total TA content, which is the first report on simultaneous introduction of <it>PMT </it>and <it>TRI </it>genes into TA-producing plant by biotechnological approaches.</p> http://www.biomedcentral.com/1472-6750/11/43
collection DOAJ
language English
format Article
sources DOAJ
author Zhang Ang
Fu Xueqing
Zhou Wentao
Luo Xiuqin
Yang Sheng
Kai Guoyin
Zhang Yan
Xiao Jianbo
spellingShingle Zhang Ang
Fu Xueqing
Zhou Wentao
Luo Xiuqin
Yang Sheng
Kai Guoyin
Zhang Yan
Xiao Jianbo
Co-expression of <it>AaPMT </it>and <it>AaTRI </it>effectively enhances the yields of tropane alkaloids in <it>Anisodus acutangulus </it>hairy roots
BMC Biotechnology
author_facet Zhang Ang
Fu Xueqing
Zhou Wentao
Luo Xiuqin
Yang Sheng
Kai Guoyin
Zhang Yan
Xiao Jianbo
author_sort Zhang Ang
title Co-expression of <it>AaPMT </it>and <it>AaTRI </it>effectively enhances the yields of tropane alkaloids in <it>Anisodus acutangulus </it>hairy roots
title_short Co-expression of <it>AaPMT </it>and <it>AaTRI </it>effectively enhances the yields of tropane alkaloids in <it>Anisodus acutangulus </it>hairy roots
title_full Co-expression of <it>AaPMT </it>and <it>AaTRI </it>effectively enhances the yields of tropane alkaloids in <it>Anisodus acutangulus </it>hairy roots
title_fullStr Co-expression of <it>AaPMT </it>and <it>AaTRI </it>effectively enhances the yields of tropane alkaloids in <it>Anisodus acutangulus </it>hairy roots
title_full_unstemmed Co-expression of <it>AaPMT </it>and <it>AaTRI </it>effectively enhances the yields of tropane alkaloids in <it>Anisodus acutangulus </it>hairy roots
title_sort co-expression of <it>aapmt </it>and <it>aatri </it>effectively enhances the yields of tropane alkaloids in <it>anisodus acutangulus </it>hairy roots
publisher BMC
series BMC Biotechnology
issn 1472-6750
publishDate 2011-04-01
description <p>Abstract</p> <p>Background</p> <p>Tropane alkaloids (TA) including anisodamine, anisodine, hyoscyamine and scopolamine are a group of important anticholinergic drugs with rapidly increasing market demand, so it is significant to improve TA production by biotechnological approaches. Putrescine <it>N</it>-methyltransferase (PMT) was considered as the first rate-limiting upstream enzyme while tropinone reductase I (TRI) was an important branch-controlling enzyme involved in TA biosynthesis. However, there is no report on simultaneous introduction of <it>PMT </it>and <it>TRI </it>genes into any TA-producing plant including <it>Anisodus acutangulus </it>(<it>A. acutangulus</it>), which is a Solanaceous perennial plant that is endemic to China and is an attractive resource plant for production of TA.</p> <p>Results</p> <p>In this study, 21 <it>AaPMT </it>and <it>AaTRI </it>double gene transformed lines (PT lines), 9 <it>AaPMT </it>single gene transformed lines (P lines) and 5 <it>AaTRI </it>single gene transformed lines (T lines) were generated. RT-PCR and real-time fluorescence quantitative analysis results revealed that total <it>AaPMT </it>(<it>AaPMT T</it>) and total <it>AaTRI </it>(<it>AaTRI T</it>) gene transcripts in transgenic PT, P and T lines showed higher expression levels than native <it>AaPMT </it>(<it>AaPMT E</it>) and <it>AaTRI </it>(<it>AaTRI E</it>) gene transcripts. As compared to the control and single gene transformed lines (P or T lines), PT transgenic hairy root lines produced significantly higher levels of TA. The highest yield of TA was detected as 8.104 mg/g dw in line PT18, which was 8.66, 4.04, and 3.11-times higher than those of the control (0.935 mg/g dw), P3 (highest in P lines, 2.004 mg/g dw) and T12 (highest in T lines, 2.604 mg/g dw), respectively. All the tested samples were found to possess strong radical scavenging capacity, which were similar to control.</p> <p>Conclusion</p> <p>In the present study, the co-expression of <it>AaPMT </it>and <it>AaTRI </it>genes in <it>A. acutangulus </it>hairy roots significantly improved the yields of TA and showed higher antioxidant activity than control because of higher total TA content, which is the first report on simultaneous introduction of <it>PMT </it>and <it>TRI </it>genes into TA-producing plant by biotechnological approaches.</p>
url http://www.biomedcentral.com/1472-6750/11/43
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AT fuxueqing coexpressionofitaapmtitanditaatriiteffectivelyenhancestheyieldsoftropanealkaloidsinitanisodusacutangulusithairyroots
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