Novel NARC-G1 garlic: comparative allicin quantification with morpho-biochemical & genetic profiling

Novel NARC-G1 garlic: comparative allicin quantification with morpho-biochemical & genetic profiling

Abstract Garlic (Allium sativum) is an important cash food crop, and the biotechnology industry has considerable interest in the plant because of its medicinal importance. These medicinal properties are attributed to organosulphur compounds as the accumulation of these compounds varies according to genotype, locality, light quality, and cultivation practices. In this study, we compared a newly developed garlic variety NARC-G1 by National Agricultural Research Centre (NARC), Islamabad, Pakistan with three different garlic cultivars and highlighted the distinctive attributes like phenotypic characteristics, the content of allicin, elemental profile, and gene polymorphism. Phenotypic analysis showed NARC-G1 has significantly higher bulb weight (66.36g ± 18.58), single clove weight (5.87g ± 1.041), and clove width (17.41mm ± 0.95) which directly correlates to the size of the garlic. The analytical analysis showed the highest allicin content (4.82 ± 0.001) in NARC-G1. Genotyping of the alliinase in all four cultivars showed indels in the gene resulting in distinguishable changes in organosulphur compounds’ profile. NARC-G1 is unique from other garlic cultivars and could be the best choice for mass production with proper cultivation and irrigation management. Moreover, for Pakistan NARC-G1 could be a potential contender to earn the industrial benefits with inland cultivation instead of importing garlic alleviating the economic burden.

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Main Authors: Shamshad,S., Rizvi,K. A., Shehnaz,H., Jatoi,S. A., Shahnaz,L., Naqvi,S. M. S., Qasim,M., Zainab,T., Haider,A.
Format: Digital revista
Language:English
Published: Instituto Internacional de Ecologia 2024
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1519-69842024000100373
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spelling oai:scielo:S1519-698420240001003732022-08-09Novel NARC-G1 garlic: comparative allicin quantification with morpho-biochemical & genetic profilingShamshad,S.Rizvi,K. A.Shehnaz,H.Jatoi,S. A.Shahnaz,L.Naqvi,S. M. S.Qasim,M.Zainab,T.Haider,A. garlic (Allium sativum) alliinase gene NARC-G1 garlic ICP-OES HPLC-based allicin quantification Abstract Garlic (Allium sativum) is an important cash food crop, and the biotechnology industry has considerable interest in the plant because of its medicinal importance. These medicinal properties are attributed to organosulphur compounds as the accumulation of these compounds varies according to genotype, locality, light quality, and cultivation practices. In this study, we compared a newly developed garlic variety NARC-G1 by National Agricultural Research Centre (NARC), Islamabad, Pakistan with three different garlic cultivars and highlighted the distinctive attributes like phenotypic characteristics, the content of allicin, elemental profile, and gene polymorphism. Phenotypic analysis showed NARC-G1 has significantly higher bulb weight (66.36g ± 18.58), single clove weight (5.87g ± 1.041), and clove width (17.41mm ± 0.95) which directly correlates to the size of the garlic. The analytical analysis showed the highest allicin content (4.82 ± 0.001) in NARC-G1. Genotyping of the alliinase in all four cultivars showed indels in the gene resulting in distinguishable changes in organosulphur compounds’ profile. NARC-G1 is unique from other garlic cultivars and could be the best choice for mass production with proper cultivation and irrigation management. Moreover, for Pakistan NARC-G1 could be a potential contender to earn the industrial benefits with inland cultivation instead of importing garlic alleviating the economic burden.info:eu-repo/semantics/openAccessInstituto Internacional de EcologiaBrazilian Journal of Biology v.84 20242024-01-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S1519-69842024000100373en10.1590/1519-6984.262697
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country Brasil
countrycode BR
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libraryname SciELO
language English
format Digital
author Shamshad,S.
Rizvi,K. A.
Shehnaz,H.
Jatoi,S. A.
Shahnaz,L.
Naqvi,S. M. S.
Qasim,M.
Zainab,T.
Haider,A.
spellingShingle Shamshad,S.
Rizvi,K. A.
Shehnaz,H.
Jatoi,S. A.
Shahnaz,L.
Naqvi,S. M. S.
Qasim,M.
Zainab,T.
Haider,A.
Novel NARC-G1 garlic: comparative allicin quantification with morpho-biochemical & genetic profiling
author_facet Shamshad,S.
Rizvi,K. A.
Shehnaz,H.
Jatoi,S. A.
Shahnaz,L.
Naqvi,S. M. S.
Qasim,M.
Zainab,T.
Haider,A.
author_sort Shamshad,S.
title Novel NARC-G1 garlic: comparative allicin quantification with morpho-biochemical & genetic profiling
title_short Novel NARC-G1 garlic: comparative allicin quantification with morpho-biochemical & genetic profiling
title_full Novel NARC-G1 garlic: comparative allicin quantification with morpho-biochemical & genetic profiling
title_fullStr Novel NARC-G1 garlic: comparative allicin quantification with morpho-biochemical & genetic profiling
title_full_unstemmed Novel NARC-G1 garlic: comparative allicin quantification with morpho-biochemical & genetic profiling
title_sort novel narc-g1 garlic: comparative allicin quantification with morpho-biochemical & genetic profiling
description Abstract Garlic (Allium sativum) is an important cash food crop, and the biotechnology industry has considerable interest in the plant because of its medicinal importance. These medicinal properties are attributed to organosulphur compounds as the accumulation of these compounds varies according to genotype, locality, light quality, and cultivation practices. In this study, we compared a newly developed garlic variety NARC-G1 by National Agricultural Research Centre (NARC), Islamabad, Pakistan with three different garlic cultivars and highlighted the distinctive attributes like phenotypic characteristics, the content of allicin, elemental profile, and gene polymorphism. Phenotypic analysis showed NARC-G1 has significantly higher bulb weight (66.36g ± 18.58), single clove weight (5.87g ± 1.041), and clove width (17.41mm ± 0.95) which directly correlates to the size of the garlic. The analytical analysis showed the highest allicin content (4.82 ± 0.001) in NARC-G1. Genotyping of the alliinase in all four cultivars showed indels in the gene resulting in distinguishable changes in organosulphur compounds’ profile. NARC-G1 is unique from other garlic cultivars and could be the best choice for mass production with proper cultivation and irrigation management. Moreover, for Pakistan NARC-G1 could be a potential contender to earn the industrial benefits with inland cultivation instead of importing garlic alleviating the economic burden.
publisher Instituto Internacional de Ecologia
publishDate 2024
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1519-69842024000100373
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