Schematic overview of cyanogenesis in Chamberlinius hualienensis and cyanohydrin biosynthesis in millipedes, insects, and plants.

(A) C. hualienensis and a schematic view of cyanogenesis. Paranota of the millipede house defensive glands and consist of reservoir and reaction chamber. (R)-Mandelonitrile (MAN) stored in the reservoir is admitted to the reaction chamber, converted by...

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主要作者:	Takuya Yamaguchi (4543105) (author)
其他作者:	Yasuhisa Asano (727606) (author)
出版:	2025
主题:	Biochemistry Evolutionary Biology Ecology Plant Biology Virology Biological Sciences not elsewhere classified Chemical Sciences not elsewhere classified subsequently converting aldoxime natural defensive chemicals indicating sequential duplication catalyse aldoxime dehydration div >< p cyanogenic millipedes evolved chamberlinius hualienensis </ hualienensis </ r </ typically lineage related enzymes plant lineages plant kingdoms paralogous genes millipedes demonstrates mechanisms underlying hydroxynitrile lyase hydrogen cyanide giving rise enzymes independently dependent monooxygenase deeper understanding cytochrome p450 complete set coding genes biological characterisation >)- mandelonitrile
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总结:	<p>(A) <i>C. hualienensis</i> and a schematic view of cyanogenesis. Paranota of the millipede house defensive glands and consist of reservoir and reaction chamber. (<i>R</i>)-Mandelonitrile (MAN) stored in the reservoir is admitted to the reaction chamber, converted by hydroxynitrile lyase (HNL) to hydrogen cyanide (HCN) and benzaldehyde, and released to the outside via ozopores. (B) In arthropods (millipede and burnet moth) and plants, cyanohydrin is commonly synthesised from amino acids via aldoxime and nitrile. Different classes of flavin-dependent monooxygenases (FMO) and cytochrome P450s are responsible for the biosynthesis.</p>

Schematic overview of cyanogenesis in <i>Chamberlinius hualienensis</i> and cyanohydrin biosynthesis in millipedes, insects, and plants.

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