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HOMEODOMAIN PROTEIN 1 is required for jasmonate-mediated glandular trichome initiation in Artemisia annua
HOMEODOMAIN PROTEIN 1 is required for jasmonate-mediated glandular trichome initiation in Artemisia annua
by Ling Li , Qian Shen , Tingxiang Yan , Ya-nan Ma , Xueqing Fu , Minghui Chen , Xiaolong Hao , Kexuan Tang , Zongyou Lv , Weimin Jiang , Qifang Pan , Xiaofen Sun , Pu Shi , Yueli Tang
in AaHD1 / Artemisia annua / Artemisia annua - drug effects / Artemisia annua - embryology / Artemisia annua - metabolism / artemisinin / Cyclopentanes - pharmacology / Gene Knockdown Techniques / glandular trichome / homeodomain proteins / jasmonate (JA) / jasmonic acid / JAZ protein / Metabolites / Models, Biological / Organogenesis - drug effects / Oxylipins - pharmacology / Phylogeny / Plant growth / plant hormones / Plant Leaves - ultrastructure / Plant Proteins - chemistry / Plant Proteins - metabolism / Planting density / Plants, Genetically Modified / Protein Domains / transcription (genetics) / transcription factor / transcription factors / Transcription, Genetic - drug effects / trichomes / Trichomes - drug effects / Trichomes - embryology / Trichomes - metabolism / Trichomes - ultrastructure
2017
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HOMEODOMAIN PROTEIN 1 is required for jasmonate-mediated glandular trichome initiation in Artemisia annua
by Ling Li , Qian Shen , Tingxiang Yan , Ya-nan Ma , Xueqing Fu , Minghui Chen , Xiaolong Hao , Kexuan Tang , Zongyou Lv , Weimin Jiang , Qifang Pan , Xiaofen Sun , Pu Shi , Yueli Tang
in AaHD1 / Artemisia annua / Artemisia annua - drug effects / Artemisia annua - embryology / Artemisia annua - metabolism / artemisinin / Cyclopentanes - pharmacology / Gene Knockdown Techniques / glandular trichome / homeodomain proteins / jasmonate (JA) / jasmonic acid / JAZ protein / Metabolites / Models, Biological / Organogenesis - drug effects / Oxylipins - pharmacology / Phylogeny / Plant growth / plant hormones / Plant Leaves - ultrastructure / Plant Proteins - chemistry / Plant Proteins - metabolism / Planting density / Plants, Genetically Modified / Protein Domains / transcription (genetics) / transcription factor / transcription factors / Transcription, Genetic - drug effects / trichomes / Trichomes - drug effects / Trichomes - embryology / Trichomes - metabolism / Trichomes - ultrastructure
2017
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HOMEODOMAIN PROTEIN 1 is required for jasmonate-mediated glandular trichome initiation in Artemisia annua
HOMEODOMAIN PROTEIN 1 is required for jasmonate-mediated glandular trichome initiation in Artemisia annua
by Ling Li , Qian Shen , Tingxiang Yan , Ya-nan Ma , Xueqing Fu , Minghui Chen , Xiaolong Hao , Kexuan Tang , Zongyou Lv , Weimin Jiang , Qifang Pan , Xiaofen Sun , Pu Shi , Yueli Tang
in AaHD1 / Artemisia annua / Artemisia annua - drug effects / Artemisia annua - embryology / Artemisia annua - metabolism / artemisinin / Cyclopentanes - pharmacology / Gene Knockdown Techniques / glandular trichome / homeodomain proteins / jasmonate (JA) / jasmonic acid / JAZ protein / Metabolites / Models, Biological / Organogenesis - drug effects / Oxylipins - pharmacology / Phylogeny / Plant growth / plant hormones / Plant Leaves - ultrastructure / Plant Proteins - chemistry / Plant Proteins - metabolism / Planting density / Plants, Genetically Modified / Protein Domains / transcription (genetics) / transcription factor / transcription factors / Transcription, Genetic - drug effects / trichomes / Trichomes - drug effects / Trichomes - embryology / Trichomes - metabolism / Trichomes - ultrastructure
2017

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HOMEODOMAIN PROTEIN 1 is required for jasmonate-mediated glandular trichome initiation in Artemisia annua
HOMEODOMAIN PROTEIN 1 is required for jasmonate-mediated glandular trichome initiation in Artemisia annua
Journal Article

HOMEODOMAIN PROTEIN 1 is required for jasmonate-mediated glandular trichome initiation in Artemisia annua

Ling Li,
Qian Shen,
Tingxiang Yan,
Ya-nan Ma,
Xueqing Fu,
Minghui Chen,
Xiaolong Hao,
Kexuan Tang,
Zongyou Lv,
Weimin Jiang,
Qifang Pan,
Xiaofen Sun,
Pu Shi,
Yueli Tang
2017
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Overview
Glandular trichomes are generally considered biofactories that produce valuable chemicals. Increasing glandular trichome density is a very suitable way to improve the productivity of these valuable metabolites, but little is known about the regulation of glandular trichome formation. Phytohormone jasmonate (JA) promotes glandular trichome initiation in various plants, but its mechanism is also unknown. By searching transcription factors regulated by JA in Artemisia annua, we identified a novel homeodomain-leucine zipper transcription factor, HOMEODOMAIN PROTEIN 1 (AaHD1), which positively controls both glandular and nonglandular trichome initiations. Overexpression of AaHD1 in A. annua significantly increased glandular trichome density without harming plant growth. Consequently, the artemisinin content was improved. AaHD1 interacts with A. annua jasmonate ZIM-domain 8 (AaJAZ8), which is a repressor of JA, thereby resulting in decreased transcriptional activity. AaHD1 knockdown lines show decreased sensitivity to JA on glandular trichome initiation, which indicates that AaHD1 plays an important role in JA-mediated glandular trichome initiation. We identified a new transcription factor that promotes A. annua glandular trichome initiation and revealed a novel molecular mechanism by which a homeodomain protein transduces JA signal to promote glandular trichome initiation. Our results also suggested a connection between glandular and nonglandular trichome formations.
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Publisher
New Phytologist Trust,Wiley Subscription Services, Inc
Subject

AaHD1

/ Artemisia annua

/ Artemisia annua - drug effects

/ Artemisia annua - embryology

/ Artemisia annua - metabolism

/ artemisinin

/ Cyclopentanes - pharmacology

/ Gene Knockdown Techniques

/ glandular trichome

/ homeodomain proteins

/ jasmonate (JA)

/ jasmonic acid

/ JAZ protein

/ Metabolites

/ Models, Biological

/ Organogenesis - drug effects

/ Oxylipins - pharmacology

/ Phylogeny

/ Plant growth

/ plant hormones

/ Plant Leaves - ultrastructure

/ Plant Proteins - chemistry

/ Plant Proteins - metabolism

/ Planting density

/ Plants, Genetically Modified

/ Protein Domains

/ transcription (genetics)

/ transcription factor

/ transcription factors

/ Transcription, Genetic - drug effects

/ trichomes

/ Trichomes - drug effects

/ Trichomes - embryology

/ Trichomes - metabolism

/ Trichomes - ultrastructure

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