Identification of Rice Aromatic Compounds by Solid Phase Micro-Extraction method in GC-MS and Mapping their Controlling QTLs using Microsatellite Marker

Identification of Rice Aromatic Compounds by Solid Phase Micro-Extraction method in GC-MS and Mapping their Controlling QTLs using Microsatellite Marker

Increasing demand for aromatic rice causes their higher price and attracted plant breeder's attention to recognize rice aroma-controlling genes. Highly linked markers with the genes controlling important agronomic traits help to make phenotypic selection, more efficient, effective, reliable and...

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Main Authors: Reza Amiri Fahliyani, Mahmoud Khodambashi, Alireza Ghiyasvand
Format: Article
Language:fas
Published: Shahid Bahonar University of Kerman 2013-11-01
Series:مجله بیوتکنولوژی کشاورزی
Subjects:
rice
aromatic compounds
qtl
gene mapping
spme- gc- ms method
Online Access:https://jab.uk.ac.ir/article_1209_b5287026ca8da556e4b9baf671a2afea.pdf
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spelling doaj-48b8cfcba643475ebddca0e0d2ad6cc32020-11-25T03:46:48ZfasShahid Bahonar University of Kermanمجله بیوتکنولوژی کشاورزی2228-67052228-65002013-11-0153193210.22103/jab.2013.12091209Identification of Rice Aromatic Compounds by Solid Phase Micro-Extraction method in GC-MS and Mapping their Controlling QTLs using Microsatellite MarkerReza Amiri FahliyaniMahmoud KhodambashiAlireza GhiyasvandIncreasing demand for aromatic rice causes their higher price and attracted plant breeder's attention to recognize rice aroma-controlling genes. Highly linked markers with the genes controlling important agronomic traits help to make phenotypic selection, more efficient, effective, reliable and cost-effective compare to the more conventional plant breeding methods. The aim of conducting this research was identification of volatile compounds in rice and mapping their controlling QTLs using SSR markers. The harvested seed of 139 single F<sub>2</sub> plants of cross between Mousa-Tarom and 304 were grown in 2010. Volatile compounds extraction, separation and identification of seed samples; harvested from each F<sub>2:3</sub> families; was conducted using the sensitive and efficient method of solid phase micro-extraction in gas chromatography coupled to a mass spectrometry apparatus. Alkane compounds of tetradecane, pentadecane, hexadeane and heptadecane were the general identified compounds. The identified QTLs controlling volatile compounds were located on chromosomes 1, 4, 6, 11, and 12. The chromosome number 4 included most of the volatile controlling loci. Out of 14 identified loci, 12 showed different situations of partial, complete or over dominance effects. Heptadecane compound showed the lowest heritability and tetradecane showed more than 50% heritability. Ultimately, in this study, several QTLs having less than 5.4 centiMorgan distances to the marker; the optimal recommended distance between the marker and QTL for selection; were identified.https://jab.uk.ac.ir/article_1209_b5287026ca8da556e4b9baf671a2afea.pdfricearomatic compoundsqtlgene mappingspme- gc- ms method
collection DOAJ
language fas
format Article
sources DOAJ
author Reza Amiri Fahliyani
Mahmoud Khodambashi
Alireza Ghiyasvand
spellingShingle Reza Amiri Fahliyani
Mahmoud Khodambashi
Alireza Ghiyasvand
Identification of Rice Aromatic Compounds by Solid Phase Micro-Extraction method in GC-MS and Mapping their Controlling QTLs using Microsatellite Marker
مجله بیوتکنولوژی کشاورزی
rice
aromatic compounds
qtl
gene mapping
spme- gc- ms method
author_facet Reza Amiri Fahliyani
Mahmoud Khodambashi
Alireza Ghiyasvand
author_sort Reza Amiri Fahliyani
title Identification of Rice Aromatic Compounds by Solid Phase Micro-Extraction method in GC-MS and Mapping their Controlling QTLs using Microsatellite Marker
title_short Identification of Rice Aromatic Compounds by Solid Phase Micro-Extraction method in GC-MS and Mapping their Controlling QTLs using Microsatellite Marker
title_full Identification of Rice Aromatic Compounds by Solid Phase Micro-Extraction method in GC-MS and Mapping their Controlling QTLs using Microsatellite Marker
title_fullStr Identification of Rice Aromatic Compounds by Solid Phase Micro-Extraction method in GC-MS and Mapping their Controlling QTLs using Microsatellite Marker
title_full_unstemmed Identification of Rice Aromatic Compounds by Solid Phase Micro-Extraction method in GC-MS and Mapping their Controlling QTLs using Microsatellite Marker
title_sort identification of rice aromatic compounds by solid phase micro-extraction method in gc-ms and mapping their controlling qtls using microsatellite marker
publisher Shahid Bahonar University of Kerman
series مجله بیوتکنولوژی کشاورزی
issn 2228-6705
2228-6500
publishDate 2013-11-01
description Increasing demand for aromatic rice causes their higher price and attracted plant breeder's attention to recognize rice aroma-controlling genes. Highly linked markers with the genes controlling important agronomic traits help to make phenotypic selection, more efficient, effective, reliable and cost-effective compare to the more conventional plant breeding methods. The aim of conducting this research was identification of volatile compounds in rice and mapping their controlling QTLs using SSR markers. The harvested seed of 139 single F<sub>2</sub> plants of cross between Mousa-Tarom and 304 were grown in 2010. Volatile compounds extraction, separation and identification of seed samples; harvested from each F<sub>2:3</sub> families; was conducted using the sensitive and efficient method of solid phase micro-extraction in gas chromatography coupled to a mass spectrometry apparatus. Alkane compounds of tetradecane, pentadecane, hexadeane and heptadecane were the general identified compounds. The identified QTLs controlling volatile compounds were located on chromosomes 1, 4, 6, 11, and 12. The chromosome number 4 included most of the volatile controlling loci. Out of 14 identified loci, 12 showed different situations of partial, complete or over dominance effects. Heptadecane compound showed the lowest heritability and tetradecane showed more than 50% heritability. Ultimately, in this study, several QTLs having less than 5.4 centiMorgan distances to the marker; the optimal recommended distance between the marker and QTL for selection; were identified.
topic rice
aromatic compounds
qtl
gene mapping
spme- gc- ms method
url https://jab.uk.ac.ir/article_1209_b5287026ca8da556e4b9baf671a2afea.pdf
work_keys_str_mv AT rezaamirifahliyani identificationofricearomaticcompoundsbysolidphasemicroextractionmethodingcmsandmappingtheircontrollingqtlsusingmicrosatellitemarker
AT mahmoudkhodambashi identificationofricearomaticcompoundsbysolidphasemicroextractionmethodingcmsandmappingtheircontrollingqtlsusingmicrosatellitemarker
AT alirezaghiyasvand identificationofricearomaticcompoundsbysolidphasemicroextractionmethodingcmsandmappingtheircontrollingqtlsusingmicrosatellitemarker
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