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Wheat gibberellin oxidase genes and their functions in regulating tillering
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Multiple genetic factors control tillering, a key agronomy trait for wheat (
Triticum aestivum
L.) yield. Previously, we reported a
dwarf-monoculm
mutant (
dmc
) derived from wheat cultivar Guomai 301, and found that the contents of gibberellic acid 3 (GA
3
) in the tiller primordia of
dmc
were significantly higher. Transcriptome analysis indicated that some wheat gibberellin oxidase (
TaGAox
) genes
TaGA20ox-A2
,
TaGA20ox-B2
,
TaGA3ox-A2
,
TaGA20ox-A4
,
TaGA2ox-A10
and
TaGA2ox-B10
were differentially expressed in
dmc
. Therefore, this study systematically analyzed the roles of gibberellin oxidase genes during wheat tillering. A total of 63
TaGAox
genes were identified by whole genome analysis. The TaGAoxs were clustered to four subfamilies, GA20oxs, GA2oxs, GA3oxs and GA7oxs, including seven subgroups based on their protein structures. The promoter regions of
TaGAox
genes contain a large number of
cis
-acting elements closely related to hormone, plant growth and development, light, and abiotic stress responses. Segmental duplication events played a major role in
TaGAoxs
expansion. Compared to
Arabidopsis
, the gene collinearity degrees of the
GAoxs
were significantly higher among wheat, rice and maize.
TaGAox
genes showed tissue-specific expression patterns. The expressions of
TaGAox
genes (
TaGA20ox-B2
,
TaGA7ox-A1
,
TaGA2ox10
and
TaGA3ox-A2
) were significantly affected by exogenous GA
3
applications, which also significantly promoted tillering of Guomai 301, but didn’t promote
dmc
.
TaGA7ox-A1
overexpression transgenic wheat lines were obtained by
Agrobacterium
mediated transformation. Genomic PCR and first-generation sequencing demonstrated that the gene was integrated into the wheat genome. Association analysis of
TaGA7ox-A1
expression level and tiller number per plant demonstrated that the tillering capacities of some
TaGA7ox-A1
transgenic lines were increased. These data demonstrated that some
TaGAoxs
as well as GA signaling were involved in regulating wheat tillering, but the GA signaling pathway was disturbed in
dmc
. This study provided valuable clues for functional characterization of
GAox
genes in wheat.
Title: Wheat gibberellin oxidase genes and their functions in regulating tillering
Description:
Multiple genetic factors control tillering, a key agronomy trait for wheat (
Triticum aestivum
L.
) yield.
Previously, we reported a
dwarf-monoculm
mutant (
dmc
) derived from wheat cultivar Guomai 301, and found that the contents of gibberellic acid 3 (GA
3
) in the tiller primordia of
dmc
were significantly higher.
Transcriptome analysis indicated that some wheat gibberellin oxidase (
TaGAox
) genes
TaGA20ox-A2
,
TaGA20ox-B2
,
TaGA3ox-A2
,
TaGA20ox-A4
,
TaGA2ox-A10
and
TaGA2ox-B10
were differentially expressed in
dmc
.
Therefore, this study systematically analyzed the roles of gibberellin oxidase genes during wheat tillering.
A total of 63
TaGAox
genes were identified by whole genome analysis.
The TaGAoxs were clustered to four subfamilies, GA20oxs, GA2oxs, GA3oxs and GA7oxs, including seven subgroups based on their protein structures.
The promoter regions of
TaGAox
genes contain a large number of
cis
-acting elements closely related to hormone, plant growth and development, light, and abiotic stress responses.
Segmental duplication events played a major role in
TaGAoxs
expansion.
Compared to
Arabidopsis
, the gene collinearity degrees of the
GAoxs
were significantly higher among wheat, rice and maize.
TaGAox
genes showed tissue-specific expression patterns.
The expressions of
TaGAox
genes (
TaGA20ox-B2
,
TaGA7ox-A1
,
TaGA2ox10
and
TaGA3ox-A2
) were significantly affected by exogenous GA
3
applications, which also significantly promoted tillering of Guomai 301, but didn’t promote
dmc
.
TaGA7ox-A1
overexpression transgenic wheat lines were obtained by
Agrobacterium
mediated transformation.
Genomic PCR and first-generation sequencing demonstrated that the gene was integrated into the wheat genome.
Association analysis of
TaGA7ox-A1
expression level and tiller number per plant demonstrated that the tillering capacities of some
TaGA7ox-A1
transgenic lines were increased.
These data demonstrated that some
TaGAoxs
as well as GA signaling were involved in regulating wheat tillering, but the GA signaling pathway was disturbed in
dmc
.
This study provided valuable clues for functional characterization of
GAox
genes in wheat.
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