S-腺苷甲硫氨酸依赖性卤化物/硫醇甲基转移酶（HTMT）参与农业植物的甲基卤排放：从萝卜（白萝卜）中分离和鉴定HTMT编码基因。

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

作者信息

Itoh Nobuya, Toda Hiroshi, Matsuda Michiko, Negishi Takashi, Taniguchi Tomokazu, Ohsawa Noboru

机构信息

Department of Biotechnology, Faculty of Engineering (Biotechnology Research Center), Toyama Prefectural University, Imizu, Toyama, Japan.

出版信息

BMC Plant Biol. 2009 Sep 1;9:116. doi: 10.1186/1471-2229-9-116.

DOI:10.1186/1471-2229-9-116

PMID:19723322

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2752461/

Abstract

BACKGROUND

Biogenic emissions of methyl halides (CH3Cl, CH3Br and CH3I) 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.

RESULTS

Thirty-five higher plant species were screened, and high CH3I emissions and HMT/HTMT activities were found in higher plants belonging to the Poaceae family, including wheat (Triticum aestivum L.) and paddy rice (Oryza sativa L.), as well as the Brassicaceae family, including daikon radish (Raphanus sativus). The in vivo emission of CH3I clearly correlated with HMT/HTMT activity. The emission of CH3I from the sprouting leaves of R. sativus, T. aestivum and O. sativa grown hydroponically increased with increasing concentrations of supplied iodide. A gene encoding an S-adenosylmethionine halide/thiol methyltransferase (HTMT) was cloned from R. sativus and expressed in Escherichia coli as a soluble protein. The recombinant R. sativus HTMT (RsHTMT) was revealed to possess high specificity for iodide (I-), bisulfide ([SH]-), and thiocyanate ([SCN]-) ions.

CONCLUSION

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 Brassica oleracea 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.

摘要

背景

卤代甲烷（CH₃Cl、CH₃Br和CH₃I）的生物源排放是大气中这些化合物的主要来源；然而，关于这些排放物的卤化物特征和强度的报道很少。涉及这些排放的卤离子甲基转移酶（HMT）和卤化物/硫醇甲基转移酶（HTMT）已从包括海藻、真菌和高等植物在内的多种生物体中纯化并进行了表征；然而，卤代甲烷的排放特征与HMT/HTMT的酶学性质之间的相关性及其在体内的作用仍不清楚。

结果

对35种高等植物进行了筛选，发现禾本科植物，包括小麦（Triticum aestivum L.）和水稻（Oryza sativa L.），以及十字花科植物，包括萝卜（Raphanus sativus），具有较高的CH₃I排放和HMT/HTMT活性。CH₃I的体内排放与HMT/HTMT活性明显相关。水培生长的萝卜、小麦和水稻发芽叶片的CH₃I排放随着供应碘化物浓度的增加而增加。从萝卜中克隆了一个编码S-腺苷甲硫氨酸卤化物/硫醇甲基转移酶（HTMT）的基因，并在大肠杆菌中表达为可溶性蛋白。重组萝卜HTMT（RsHTMT）对碘离子（I⁻）、二硫化物（[SH]⁻）和硫氰酸盐（[SCN]⁻）离子具有高特异性。

结论

目前的研究结果表明，HMT/HTMT活性存在于包括禾本科和十字花科在内的几个高等植物科中，并参与卤代甲烷的形成。此外，发现植物中甲基碘的排放受培养物中碘化物浓度的影响。重组RsHTMT表现出与甘蓝型油菜HTMT相似的酶学性质，特别是对碘离子、二硫化物和硫氰酸盐离子具有高特异性。对卤代甲烷生物源排放的调查强烈表明，HTM/HTMT反应是理解自然界中卤代甲烷和甲基化硫化合物生物合成的关键。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d469/2752461/2c856d7a5f1d/1471-2229-9-116-1.jpg

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Involvement of S-adenosylmethionine-dependent halide/thiol methyltransferase (HTMT) in methyl halide emissions from agricultural plants: isolation and characterization of an HTMT-coding gene from Raphanus sativus (daikon radish).S-腺苷甲硫氨酸依赖性卤化物/硫醇甲基转移酶（HTMT）参与农业植物的甲基卤排放：从萝卜（白萝卜）中分离和鉴定HTMT编码基因。

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S-腺苷甲硫氨酸依赖性卤化物/硫醇甲基转移酶（HTMT）参与农业植物的甲基卤排放：从萝卜（白萝卜）中分离和鉴定HTMT编码基因。

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

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