Computational identification of anthocyanin-specific transcription factors using a rice microarray and maximum boundary range algorithm

Computational identification of anthocyanin-specific transcription factors using a rice microarray and maximum boundary range algorithm

Show other versions (1)

This study identifies 2,617 candidate genes related to anthocyanin biosynthesis in rice using microarray analysis and a newly developed maximum boundary range algorithm. Three seed developmental stages were examined in white cultivar and two black Dissociation insertion mutants. The resultant 235 tr...

Full description

Bibliographic Details
Main Authors: Chang Kug Kim, Shoshi Kikuchi, Jang Ho Hahn, Soo Chul Park, Yong Hwan Kim, Byun Woo Lee
Format: Article
Language:English
Published: SAGE Publishing 2010-01-01
Series:Evolutionary Bioinformatics
Online Access:https://doi.org/10.4137/EBO.S6077
id doaj-af4a7be355da4e38940c27584511054e
record_format Article
spelling doaj-af4a7be355da4e38940c27584511054e2020-11-25T02:34:09ZengSAGE PublishingEvolutionary Bioinformatics1176-93432010-01-01610.4137/EBO.S6077Computational identification of anthocyanin-specific transcription factors using a rice microarray and maximum boundary range algorithmChang Kug Kim0Shoshi Kikuchi1Jang Ho Hahn2Soo Chul Park3Yong Hwan Kim4Byun Woo Lee5Genomics Division, national Academy of Agricultural Science (NAAS), Rural Development Administration (RDA), Suwon 441–707, Korea.Division of Genome and Biodiversity Research, National Institute of Agrobiological Sciences (NIAS), Tsukuba, Ibaraki 305-8602, Japan.Genomics Division, national Academy of Agricultural Science (NAAS), Rural Development Administration (RDA), Suwon 441–707, Korea.Genomics Division, national Academy of Agricultural Science (NAAS), Rural Development Administration (RDA), Suwon 441–707, Korea.Genomics Division, national Academy of Agricultural Science (NAAS), Rural Development Administration (RDA), Suwon 441–707, Korea.Department of Plant Science, College of Agriculture and Life Sciences, Seoul National University, Seoul 151-741, Korea.This study identifies 2,617 candidate genes related to anthocyanin biosynthesis in rice using microarray analysis and a newly developed maximum boundary range algorithm. Three seed developmental stages were examined in white cultivar and two black Dissociation insertion mutants. The resultant 235 transcription factor genes found to be associated with anthocyanin were classified into nine groups. It is compared the 235 genes by transcription factor analysis and 593 genes from among clusters of COGs related to anthocyanin functions. Total 32 genes were found to be expressed commonly. Among these, 9 unknown and hypothetical genes were revealed to be expressed at each developmental stage and were verified by RT-PCR. These genes most likely play regulatory roles in either anthocyanin production or metabolism during flavonoid biosynthesis. While these genes require further validation, our results underline the potential usefulness of the newly developed algorithm.https://doi.org/10.4137/EBO.S6077
collection DOAJ
language English
format Article
sources DOAJ
author Chang Kug Kim
Shoshi Kikuchi
Jang Ho Hahn
Soo Chul Park
Yong Hwan Kim
Byun Woo Lee
spellingShingle Chang Kug Kim
Shoshi Kikuchi
Jang Ho Hahn
Soo Chul Park
Yong Hwan Kim
Byun Woo Lee
Computational identification of anthocyanin-specific transcription factors using a rice microarray and maximum boundary range algorithm
Evolutionary Bioinformatics
author_facet Chang Kug Kim
Shoshi Kikuchi
Jang Ho Hahn
Soo Chul Park
Yong Hwan Kim
Byun Woo Lee
author_sort Chang Kug Kim
title Computational identification of anthocyanin-specific transcription factors using a rice microarray and maximum boundary range algorithm
title_short Computational identification of anthocyanin-specific transcription factors using a rice microarray and maximum boundary range algorithm
title_full Computational identification of anthocyanin-specific transcription factors using a rice microarray and maximum boundary range algorithm
title_fullStr Computational identification of anthocyanin-specific transcription factors using a rice microarray and maximum boundary range algorithm
title_full_unstemmed Computational identification of anthocyanin-specific transcription factors using a rice microarray and maximum boundary range algorithm
title_sort computational identification of anthocyanin-specific transcription factors using a rice microarray and maximum boundary range algorithm
publisher SAGE Publishing
series Evolutionary Bioinformatics
issn 1176-9343
publishDate 2010-01-01
description This study identifies 2,617 candidate genes related to anthocyanin biosynthesis in rice using microarray analysis and a newly developed maximum boundary range algorithm. Three seed developmental stages were examined in white cultivar and two black Dissociation insertion mutants. The resultant 235 transcription factor genes found to be associated with anthocyanin were classified into nine groups. It is compared the 235 genes by transcription factor analysis and 593 genes from among clusters of COGs related to anthocyanin functions. Total 32 genes were found to be expressed commonly. Among these, 9 unknown and hypothetical genes were revealed to be expressed at each developmental stage and were verified by RT-PCR. These genes most likely play regulatory roles in either anthocyanin production or metabolism during flavonoid biosynthesis. While these genes require further validation, our results underline the potential usefulness of the newly developed algorithm.
url https://doi.org/10.4137/EBO.S6077
work_keys_str_mv AT changkugkim computationalidentificationofanthocyaninspecifictranscriptionfactorsusingaricemicroarrayandmaximumboundaryrangealgorithm
AT shoshikikuchi computationalidentificationofanthocyaninspecifictranscriptionfactorsusingaricemicroarrayandmaximumboundaryrangealgorithm
AT janghohahn computationalidentificationofanthocyaninspecifictranscriptionfactorsusingaricemicroarrayandmaximumboundaryrangealgorithm
AT soochulpark computationalidentificationofanthocyaninspecifictranscriptionfactorsusingaricemicroarrayandmaximumboundaryrangealgorithm
AT yonghwankim computationalidentificationofanthocyaninspecifictranscriptionfactorsusingaricemicroarrayandmaximumboundaryrangealgorithm
AT byunwoolee computationalidentificationofanthocyaninspecifictranscriptionfactorsusingaricemicroarrayandmaximumboundaryrangealgorithm
_version_ 1724809906002853888

Similar Items