Involvement of <it>S</it>-adenosylmethionine-dependent halide/thiol methyltransferase (HTMT) in methyl halide emissions from agricultural plants: isolation and characterization of an HTMT-coding gene from <it>Raphanus sativus </it>(daikon radish)

Involvement of <it>S</it>-adenosylmethionine-dependent halide/thiol methyltransferase (HTMT) in methyl halide emissions from agricultural plants: isolation and characterization of an HTMT-coding gene from <it>Raphanus sativus </it>(daikon radish)

<p>Abstract</p> <p>Background</p> <p>Biogenic emissions of methyl halides (CH<sub>3</sub>Cl, CH<sub>3</sub>Br and CH<sub>3</sub>I) are the major source of these compounds in the atmosphere; however, there are few reports about the hal...

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Main Authors: Taniguchi Tomokazu, Negishi Takashi, Matsuda Michiko, Toda Hiroshi, Itoh Nobuya, Ohsawa Noboru
Format: Article
Language:English
Published: BMC 2009-09-01
Series:BMC Plant Biology
Online Access:http://www.biomedcentral.com/1471-2229/9/116
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spelling doaj-abc6e1e4e61a4014a14a2614aeb0e2642020-11-24T21:38:08ZengBMCBMC Plant Biology1471-22292009-09-019111610.1186/1471-2229-9-116Involvement of <it>S</it>-adenosylmethionine-dependent halide/thiol methyltransferase (HTMT) in methyl halide emissions from agricultural plants: isolation and characterization of an HTMT-coding gene from <it>Raphanus sativus </it>(daikon radish)Taniguchi TomokazuNegishi TakashiMatsuda MichikoToda HiroshiItoh NobuyaOhsawa Noboru<p>Abstract</p> <p>Background</p> <p>Biogenic emissions of methyl halides (CH<sub>3</sub>Cl, CH<sub>3</sub>Br and CH<sub>3</sub>I) are the major source of these compounds in the atmosphere; however, there are few reports about the halide profiles and strengths of these emissions. Halide ion methyltransferase (HMT) and halide/thiol methyltransferase (HTMT) enzymes concerning these emissions have been purified and characterized from several organisms including marine algae, fungi, and higher plants; however, the correlation between emission profiles of methyl halides and the enzymatic properties of HMT/HTMT, and their role in vivo remains unclear.</p> <p>Results</p> <p>Thirty-five higher plant species were screened, and high CH<sub>3</sub>I emissions and HMT/HTMT activities were found in higher plants belonging to the Poaceae family, including wheat (<it>Triticum aestivum </it>L.) and paddy rice (<it>Oryza sativa </it>L.), as well as the Brassicaceae family, including daikon radish (<it>Raphanus sativus</it>). The in vivo emission of CH<sub>3</sub>I clearly correlated with HMT/HTMT activity. The emission of CH<sub>3</sub>I from the sprouting leaves of <it>R. sativus</it>, <it>T. aestivum </it>and <it>O. sativa </it>grown hydroponically increased with increasing concentrations of supplied iodide. A gene encoding an <it>S</it>-adenosylmethionine halide/thiol methyltransferase (HTMT) was cloned from <it>R. sativus </it>and expressed in <it>Escherichia coli </it>as a soluble protein. The recombinant <it>R. sativus </it>HTMT (RsHTMT) was revealed to possess high specificity for iodide (I<sup>-</sup>), bisulfide ([SH]<sup>-</sup>), and thiocyanate ([SCN]<sup>-</sup>) ions.</p> <p>Conclusion</p> <p>The present findings suggest that HMT/HTMT activity is present in several families of higher plants including Poaceae and Brassicaceae, and is involved in the formation of methyl halides. Moreover, it was found that the emission of methyl iodide from plants was affected by the iodide concentration in the cultures. The recombinant RsHTMT demonstrated enzymatic properties similar to those of <it>Brassica oleracea </it>HTMT, especially in terms of its high specificity for iodide, bisulfide, and thiocyanate ions. A survey of biogenic emissions of methyl halides strongly suggests that the HTM/HTMT reaction is the key to understanding the biogenesis of methyl halides and methylated sulfur compounds in nature.</p> http://www.biomedcentral.com/1471-2229/9/116
collection DOAJ
language English
format Article
sources DOAJ
author Taniguchi Tomokazu
Negishi Takashi
Matsuda Michiko
Toda Hiroshi
Itoh Nobuya
Ohsawa Noboru
spellingShingle Taniguchi Tomokazu
Negishi Takashi
Matsuda Michiko
Toda Hiroshi
Itoh Nobuya
Ohsawa Noboru
Involvement of <it>S</it>-adenosylmethionine-dependent halide/thiol methyltransferase (HTMT) in methyl halide emissions from agricultural plants: isolation and characterization of an HTMT-coding gene from <it>Raphanus sativus </it>(daikon radish)
BMC Plant Biology
author_facet Taniguchi Tomokazu
Negishi Takashi
Matsuda Michiko
Toda Hiroshi
Itoh Nobuya
Ohsawa Noboru
author_sort Taniguchi Tomokazu
title Involvement of <it>S</it>-adenosylmethionine-dependent halide/thiol methyltransferase (HTMT) in methyl halide emissions from agricultural plants: isolation and characterization of an HTMT-coding gene from <it>Raphanus sativus </it>(daikon radish)
title_short Involvement of <it>S</it>-adenosylmethionine-dependent halide/thiol methyltransferase (HTMT) in methyl halide emissions from agricultural plants: isolation and characterization of an HTMT-coding gene from <it>Raphanus sativus </it>(daikon radish)
title_full Involvement of <it>S</it>-adenosylmethionine-dependent halide/thiol methyltransferase (HTMT) in methyl halide emissions from agricultural plants: isolation and characterization of an HTMT-coding gene from <it>Raphanus sativus </it>(daikon radish)
title_fullStr Involvement of <it>S</it>-adenosylmethionine-dependent halide/thiol methyltransferase (HTMT) in methyl halide emissions from agricultural plants: isolation and characterization of an HTMT-coding gene from <it>Raphanus sativus </it>(daikon radish)
title_full_unstemmed Involvement of <it>S</it>-adenosylmethionine-dependent halide/thiol methyltransferase (HTMT) in methyl halide emissions from agricultural plants: isolation and characterization of an HTMT-coding gene from <it>Raphanus sativus </it>(daikon radish)
title_sort involvement of <it>s</it>-adenosylmethionine-dependent halide/thiol methyltransferase (htmt) in methyl halide emissions from agricultural plants: isolation and characterization of an htmt-coding gene from <it>raphanus sativus </it>(daikon radish)
publisher BMC
series BMC Plant Biology
issn 1471-2229
publishDate 2009-09-01
description <p>Abstract</p> <p>Background</p> <p>Biogenic emissions of methyl halides (CH<sub>3</sub>Cl, CH<sub>3</sub>Br and CH<sub>3</sub>I) are the major source of these compounds in the atmosphere; however, there are few reports about the halide profiles and strengths of these emissions. Halide ion methyltransferase (HMT) and halide/thiol methyltransferase (HTMT) enzymes concerning these emissions have been purified and characterized from several organisms including marine algae, fungi, and higher plants; however, the correlation between emission profiles of methyl halides and the enzymatic properties of HMT/HTMT, and their role in vivo remains unclear.</p> <p>Results</p> <p>Thirty-five higher plant species were screened, and high CH<sub>3</sub>I emissions and HMT/HTMT activities were found in higher plants belonging to the Poaceae family, including wheat (<it>Triticum aestivum </it>L.) and paddy rice (<it>Oryza sativa </it>L.), as well as the Brassicaceae family, including daikon radish (<it>Raphanus sativus</it>). The in vivo emission of CH<sub>3</sub>I clearly correlated with HMT/HTMT activity. The emission of CH<sub>3</sub>I from the sprouting leaves of <it>R. sativus</it>, <it>T. aestivum </it>and <it>O. sativa </it>grown hydroponically increased with increasing concentrations of supplied iodide. A gene encoding an <it>S</it>-adenosylmethionine halide/thiol methyltransferase (HTMT) was cloned from <it>R. sativus </it>and expressed in <it>Escherichia coli </it>as a soluble protein. The recombinant <it>R. sativus </it>HTMT (RsHTMT) was revealed to possess high specificity for iodide (I<sup>-</sup>), bisulfide ([SH]<sup>-</sup>), and thiocyanate ([SCN]<sup>-</sup>) ions.</p> <p>Conclusion</p> <p>The present findings suggest that HMT/HTMT activity is present in several families of higher plants including Poaceae and Brassicaceae, and is involved in the formation of methyl halides. Moreover, it was found that the emission of methyl iodide from plants was affected by the iodide concentration in the cultures. The recombinant RsHTMT demonstrated enzymatic properties similar to those of <it>Brassica oleracea </it>HTMT, especially in terms of its high specificity for iodide, bisulfide, and thiocyanate ions. A survey of biogenic emissions of methyl halides strongly suggests that the HTM/HTMT reaction is the key to understanding the biogenesis of methyl halides and methylated sulfur compounds in nature.</p>
url http://www.biomedcentral.com/1471-2229/9/116
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