Identification and expression analysis of S-alk(en)yl-L-cysteine sulfoxide lyase isoform genes and determination of allicin contents in Allium species

Alliinase is the key enzyme in allicin biosynthesis pathway. In the current study, the identification and sequencing of alliinase genes along with determination of allicin contents were reported for Allium species with a novel report for Iranian endemic species. The presence of different isoforms in...

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Bibliographic Details
Published in:PloS one 2020-02, Vol.15 (2), p.e0228747-e0228747
Main Authors: Sayadi, Vahid, Karimzadeh, Ghasem, Rashidi Monfared, Sajad, Naghavi, Mohammad Reza
Format: Article
Language:English
Subjects:
Agricultural biotechnology
Agriculture
Alliin lyase
Alliinase
Allium
Allium - genetics
Allium - metabolism
Amino Acid Sequence
Binding sites
Biology and Life Sciences
Biosynthesis
Bulbs
Cysteine - metabolism
Endemic species
Enzymes
Garlic
Gene expression
Gene Expression Regulation, Plant
Gene sequencing
Genes
Genetics
Isoenzymes - chemistry
Isoenzymes - genetics
Isoenzymes - metabolism
Isoforms
Lyases - chemistry
Lyases - genetics
Lyases - metabolism
Maximum likelihood method
Phylogenetics
Proteins
Research and Analysis Methods
Researchers
Roots
Sulfinic Acids - metabolism
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Summary:Alliinase is the key enzyme in allicin biosynthesis pathway. In the current study, the identification and sequencing of alliinase genes along with determination of allicin contents were reported for Allium species with a novel report for Iranian endemic species. The presence of different isoforms in the Allium being discovered for the first time. In bulbs tissue, the highest allicin concentration was in Allium sativum, A. umbilicatum, and A. fistolosum (1.185%, 0.367%, and 0.34%, respectively), followed by A. spititatum (0.072%), A. lenkoranicum (0.055%), A. atroviolaseum (0.36%), A. rubellum (0.041%), and A. stamineum (0.007%). The highest allicin content in the leaves and roots were in A. sativum (0.13%), and A. stamineum (0.195%), respectively. The ORFs length ranged from 1416 in A. sativum (iso-alliinase2; ISA2) to 1523 bp in A. sativum (alliinase); the identity with A. sativum (alliinase) varies from 95% to 68% for A. ampeloprasum, and A. sativum (iso-alliinase1, ISA1) respectively. These data suggested that both ISA1 and ISA2 had a high expression in the roots and bulbs compared to A. sativum as the control in all species. Note that ISA1 and ISA2 were not expressed in the leaves. The results showed that isoforms expression patterns among different tissues in Allium species were variable. The presence of various isoforms is a possible explanation for the difference between the species in terms of obtained results, especially the amount of allicin.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0228747