TY - JOUR
T1 - Natural variation in the flag leaf morphology of rice due to a mutation of the NARROW LEAF 1 gene in Oryza sativa L
AU - Taguchi-Shiobara, Fumio
AU - Ota, Tatsuya
AU - Ebana, Kaworu
AU - Ookawa, Taiichiro
AU - Yamasaki, Masanori
AU - Tanabata, Takanari
AU - Yamanouchi, Utako
AU - Wu, Jianzhong
AU - Ono, Nozomi
AU - Nonoue, Yasunori
AU - Nagata, Kazufumi
AU - Fukuoka, Shuichi
AU - Hirabayashi, Hideyuki
AU - Yamamoto, Toshio
AU - Yano, Masahiro
N1 - Publisher Copyright:
© 2015 by the Genetics Society of America
PY - 2015/10
Y1 - 2015/10
N2 - We investigated the natural variations in the flag leaf morphology of rice. We conducted a principal component analysis based on nine flag leaf morphology traits using 103 accessions from the National Institute of Agrobiological Sciences Core Collection. The first component explained 39% of total variance, and the variable with highest loading was the width of the flag leaf (WFL). A genomewide association analysis of 102 diverse Japanese accessions revealed that marker RM6992 on chromosome 4 was highly associated with WFL. In analyses of progenies derived from a cross between Takanari and Akenohoshi, the most significant quantitative trait locus (QTL) for WFL was in a 10.3-kb region containing the NARROW LEAF 1 (NAL1) gene, located 0.4 Mb downstream of RM6992. Analyses of chromosomal segment substitution lines indicated that a mutation (G1509A single-nucleotide mutation, causing an R233H amino acid substitution in NAL1) was present at the QTL. This explained 13 and 20% of total variability in WFL and the distance between small vascular bundles, respectively. The mutation apparently occurred during rice domestication and spread into japonica, tropical japonica, and indica subgroups. Notably, one accession, Phulba, had a NAL1 allele encoding only the N-terminal, or one-fourth, of the wild-type peptide. Given that the Phulba allele and the histidine-type allele showed essentially the same phenotype, the histidine-type allele was regarded as malfunctional. The phenotypes of transgenic plants varied depending on the ratio of histidine-type alleles to arginine-type alleles, raising the possibility that H233-type products function differently from and compete with R233-type products.
AB - We investigated the natural variations in the flag leaf morphology of rice. We conducted a principal component analysis based on nine flag leaf morphology traits using 103 accessions from the National Institute of Agrobiological Sciences Core Collection. The first component explained 39% of total variance, and the variable with highest loading was the width of the flag leaf (WFL). A genomewide association analysis of 102 diverse Japanese accessions revealed that marker RM6992 on chromosome 4 was highly associated with WFL. In analyses of progenies derived from a cross between Takanari and Akenohoshi, the most significant quantitative trait locus (QTL) for WFL was in a 10.3-kb region containing the NARROW LEAF 1 (NAL1) gene, located 0.4 Mb downstream of RM6992. Analyses of chromosomal segment substitution lines indicated that a mutation (G1509A single-nucleotide mutation, causing an R233H amino acid substitution in NAL1) was present at the QTL. This explained 13 and 20% of total variability in WFL and the distance between small vascular bundles, respectively. The mutation apparently occurred during rice domestication and spread into japonica, tropical japonica, and indica subgroups. Notably, one accession, Phulba, had a NAL1 allele encoding only the N-terminal, or one-fourth, of the wild-type peptide. Given that the Phulba allele and the histidine-type allele showed essentially the same phenotype, the histidine-type allele was regarded as malfunctional. The phenotypes of transgenic plants varied depending on the ratio of histidine-type alleles to arginine-type alleles, raising the possibility that H233-type products function differently from and compete with R233-type products.
KW - Flag leaf width
KW - NARROW LEAF 1
KW - Natural variation
KW - Oryza sativa L
KW - Rice
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U2 - 10.1534/genetics.115.181040
DO - 10.1534/genetics.115.181040
M3 - Article
C2 - 26275424
AN - SCOPUS:84943654589
SN - 0016-6731
VL - 201
SP - 795
EP - 808
JO - Genetics
JF - Genetics
IS - 2
ER -