Genome-wide Analysis of Root Hair Preferred RBOH Genes Suggests that Three RBOH Genes are Associated with Auxin-mediated Root Hair Development in Rice
Plant homologs of mammalian NADPH oxidase, respiratory burst oxidase homologs (RBOH), mainly oxidize NADPH to NADP + and transfer electrons to water. The membrane residing RBOHs thus produce reactive oxygen species (ROS), which allows plants to withstand abiotic and biotic environmental stresses. To...
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| Published in | Journal of plant biology = Singmul Hakhoe chi Vol. 62; no. 3; pp. 229 - 238 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Berlin/Heidelberg
Springer Berlin Heidelberg
01.06.2019
Springer Nature B.V 한국식물학회 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1226-9239 1867-0725 |
| DOI | 10.1007/s12374-019-0006-5 |
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| Abstract | Plant homologs of mammalian NADPH oxidase, respiratory burst oxidase homologs (RBOH), mainly oxidize NADPH to NADP
+
and transfer electrons to water. The membrane residing RBOHs thus produce reactive oxygen species (ROS), which allows plants to withstand abiotic and biotic environmental stresses. To understand the spatial and temporal function of rice (
Oryza sativa
)
RBOH
genes, we performed expression analysis of nine
RBOH
genes using qRT-PCR and microarray data. The expression profiling data suggest that
RBOH
genes have diverse roles in various tissues and organs as well as responses to hormonal treatments. Among them,
OsRBOH2, OsRBOH3
, and
OsRBOH5
are preferentially expressed in root hairs. Exogenous auxin upregulates the expression of
OsRBOH1, OsRBOH2, OsRBOH3, OsRBOH4
, and
OsRBOH8
in root hairs, while the expression of
OsRBOH7
and
OsRBOH9
is downregulated. In roots, treatment with an RBOH inhibitor, diphenyleneiodonium (DPI), suppressed the accumulation of ROS in trichoblast cells which initiate root hairs, suggesting that
RBOH
-mediated ROS could play an important role in root hair initiation in the trichoblast cells of rice roots. Promoter analysis revealed that
OsRBOH3
and
OsRBOH5
contain many known
cis
-acting regulatory elements (CREs) associated with root hair development such as the root hair
cis
-acting element, RHE.
OsRBOH2
and
OsRBOH3
, which are upregulated after treatment with indole-3-acetic acid (IAA) with significant expression in root hairs, might be key players in root hair elongation via an auxin-dependent pathway in rice. |
|---|---|
| AbstractList | Plant homologs of mammalian NADPH oxidase, respiratory burst oxidase homologs (RBOH), mainly oxidize NADPH to NADP
+
and transfer electrons to water. The membrane residing RBOHs thus produce reactive oxygen species (ROS), which allows plants to withstand abiotic and biotic environmental stresses. To understand the spatial and temporal function of rice (
Oryza sativa
)
RBOH
genes, we performed expression analysis of nine
RBOH
genes using qRT-PCR and microarray data. The expression profiling data suggest that
RBOH
genes have diverse roles in various tissues and organs as well as responses to hormonal treatments. Among them,
OsRBOH2, OsRBOH3
, and
OsRBOH5
are preferentially expressed in root hairs. Exogenous auxin upregulates the expression of
OsRBOH1, OsRBOH2, OsRBOH3, OsRBOH4
, and
OsRBOH8
in root hairs, while the expression of
OsRBOH7
and
OsRBOH9
is downregulated. In roots, treatment with an RBOH inhibitor, diphenyleneiodonium (DPI), suppressed the accumulation of ROS in trichoblast cells which initiate root hairs, suggesting that
RBOH
-mediated ROS could play an important role in root hair initiation in the trichoblast cells of rice roots. Promoter analysis revealed that
OsRBOH3
and
OsRBOH5
contain many known
cis
-acting regulatory elements (CREs) associated with root hair development such as the root hair
cis
-acting element, RHE.
OsRBOH2
and
OsRBOH3
, which are upregulated after treatment with indole-3-acetic acid (IAA) with significant expression in root hairs, might be key players in root hair elongation via an auxin-dependent pathway in rice. Plant homologs of mammalian NADPH oxidase,respiratory burst oxidase homologs (RBOH), mainly oxidizeNADPH to NADP+ and transfer electrons to water. Themembrane residing RBOHs thus produce reactive oxygenspecies (ROS), which allows plants to withstand abiotic andbiotic environmental stresses. To understand the spatial andtemporal function of rice (Oryza sativa) RBOH genes, weperformed expression analysis of nine RBOH genes using qRTPCRand microarray data. The expression profiling data suggestthat RBOH genes have diverse roles in various tissues andorgans as well as responses to hormonal treatments. Amongthem, OsRBOH2, OsRBOH3, and OsRBOH5 are preferentiallyexpressed in root hairs. Exogenous auxin upregulates theexpression of OsRBOH1, OsRBOH2, OsRBOH3, OsRBOH4,and OsRBOH8 in root hairs, while the expression of OsRBOH7and OsRBOH9 is downregulated. In roots, treatment with anRBOH inhibitor, diphenyleneiodonium (DPI), suppressed theaccumulation of ROS in trichoblast cells which initiate roothairs, suggesting that RBOH-mediated ROS could play animportant role in root hair initiation in the trichoblast cells of riceroots. Promoter analysis revealed that OsRBOH3 and OsRBOH5contain many known cis-acting regulatory elements (CREs)associated with root hair development such as the root hair cisactingelement, RHE. OsRBOH2 and OsRBOH3, which areupregulated after treatment with indole-3-acetic acid (IAA) withsignificant expression in root hairs, might be key players in roothair elongation via an auxin-dependent pathway in rice. KCI Citation Count: 26 Plant homologs of mammalian NADPH oxidase, respiratory burst oxidase homologs (RBOH), mainly oxidize NADPH to NADP+ and transfer electrons to water. The membrane residing RBOHs thus produce reactive oxygen species (ROS), which allows plants to withstand abiotic and biotic environmental stresses. To understand the spatial and temporal function of rice (Oryza sativa) RBOH genes, we performed expression analysis of nine RBOH genes using qRT-PCR and microarray data. The expression profiling data suggest that RBOH genes have diverse roles in various tissues and organs as well as responses to hormonal treatments. Among them, OsRBOH2, OsRBOH3, and OsRBOH5 are preferentially expressed in root hairs. Exogenous auxin upregulates the expression of OsRBOH1, OsRBOH2, OsRBOH3, OsRBOH4, and OsRBOH8 in root hairs, while the expression of OsRBOH7 and OsRBOH9 is downregulated. In roots, treatment with an RBOH inhibitor, diphenyleneiodonium (DPI), suppressed the accumulation of ROS in trichoblast cells which initiate root hairs, suggesting that RBOH-mediated ROS could play an important role in root hair initiation in the trichoblast cells of rice roots. Promoter analysis revealed that OsRBOH3 and OsRBOH5 contain many known cis-acting regulatory elements (CREs) associated with root hair development such as the root hair cis-acting element, RHE. OsRBOH2 and OsRBOH3, which are upregulated after treatment with indole-3-acetic acid (IAA) with significant expression in root hairs, might be key players in root hair elongation via an auxin-dependent pathway in rice. Plant homologs of mammalian NADPH oxidase, respiratory burst oxidase homologs (RBOH), mainly oxidize NADPH to NADP⁺ and transfer electrons to water. The membrane residing RBOHs thus produce reactive oxygen species (ROS), which allows plants to withstand abiotic and biotic environmental stresses. To understand the spatial and temporal function of rice (Oryza sativa) RBOH genes, we performed expression analysis of nine RBOH genes using qRT-PCR and microarray data. The expression profiling data suggest that RBOH genes have diverse roles in various tissues and organs as well as responses to hormonal treatments. Among them, OsRBOH2, OsRBOH3, and OsRBOH5 are preferentially expressed in root hairs. Exogenous auxin upregulates the expression of OsRBOH1, OsRBOH2, OsRBOH3, OsRBOH4, and OsRBOH8 in root hairs, while the expression of OsRBOH7 and OsRBOH9 is downregulated. In roots, treatment with an RBOH inhibitor, diphenyleneiodonium (DPI), suppressed the accumulation of ROS in trichoblast cells which initiate root hairs, suggesting that RBOH-mediated ROS could play an important role in root hair initiation in the trichoblast cells of rice roots. Promoter analysis revealed that OsRBOH3 and OsRBOH5 contain many known cis-acting regulatory elements (CREs) associated with root hair development such as the root hair cis-acting element, RHE. OsRBOH2 and OsRBOH3, which are upregulated after treatment with indole-3-acetic acid (IAA) with significant expression in root hairs, might be key players in root hair elongation via an auxin-dependent pathway in rice. |
| Author | Hong, Woo-Jong Jung, Ki-Hong Kim, Yu-Jin Kim, Eui-Jung Jeon, Jong-Seong Lee, Chanhee |
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| Keywords | Reactive oxygen species Root hairs Auxin RBOH Rice |
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| Snippet | Plant homologs of mammalian NADPH oxidase, respiratory burst oxidase homologs (RBOH), mainly oxidize NADPH to NADP
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and transfer electrons to water. The... Plant homologs of mammalian NADPH oxidase, respiratory burst oxidase homologs (RBOH), mainly oxidize NADPH to NADP+ and transfer electrons to water. The... Plant homologs of mammalian NADPH oxidase, respiratory burst oxidase homologs (RBOH), mainly oxidize NADPH to NADP⁺ and transfer electrons to water. The... Plant homologs of mammalian NADPH oxidase,respiratory burst oxidase homologs (RBOH), mainly oxidizeNADPH to NADP+ and transfer electrons to water. Themembrane... |
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| Title | Genome-wide Analysis of Root Hair Preferred RBOH Genes Suggests that Three RBOH Genes are Associated with Auxin-mediated Root Hair Development in Rice |
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