Engineering Broad Root-Knot Resistance in Transgenic Plants by RNAi Silencing of a Conserved and Essential Root-Knot Nematode Parasitism Gene

Secreted parasitism proteins encoded by parasitism genes expressed in esophageal gland cells mediate infection and parasitism of plants by root-knot nematodes (RKN). Parasitism gene 16D10 encodes a conserved RKN secretory peptide that stimulates root growth and functions as a ligand for a putative p...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2006-09, Vol.103 (39), p.14302-14306
Hauptverfasser:	Huang, Guozhong, Allen, Rex, Davis, Eric L., Baum, Thomas J., Hussey, Richard S.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Arabidopsis Arabidopsis - genetics Arabidopsis - parasitology Base Sequence Biological Sciences Conserved Sequence - genetics Double stranded RNA Gene expression Gene Expression Regulation, Plant Genes Genes, Helminth - genetics Hybridity Molecular Sequence Data Nematoda Nematoda - genetics Nematodes Parasites Peptides Plant Diseases - genetics Plant parasitic nematodes Plant roots Plant Roots - parasitology Plants Plants, Genetically Modified Ribonucleic acid RNA RNA - metabolism RNA Interference RNA, Messenger - genetics RNA, Messenger - metabolism Seedlings - metabolism Small interfering RNA Transgenic plants
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container_end_page	14306
container_issue	39
container_start_page	14302
container_title	Proceedings of the National Academy of Sciences - PNAS
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creator	Huang, Guozhong Allen, Rex Davis, Eric L. Baum, Thomas J. Hussey, Richard S.
description	Secreted parasitism proteins encoded by parasitism genes expressed in esophageal gland cells mediate infection and parasitism of plants by root-knot nematodes (RKN). Parasitism gene 16D10 encodes a conserved RKN secretory peptide that stimulates root growth and functions as a ligand for a putative plant transcription factor. We used in vitro and in vivo RNA interference approaches to silence this parasitism gene in RKN and validate that the parasitism gene has an essential function in RKN parasitism of plants. Ingestion of 16D10 dsRNA in vitro silenced the target parasitism gene in RKN and resulted in reduced nematode infectivity. In vivo expression of 16D10 dsRNA in Arabidopsis resulted in resistance effective against the four major RKN species. Because no known natural resistance gene has this wide effective range of RKN resistance, bioengineering crops expressing dsRNA that silence target RKN parasitism genes to disrupt the parasitic process represents a viable and flexible means of developing novel durable RKN-resistant crops and could provide crops with unprecedented broad resistance to RKN.
doi_str_mv	10.1073/pnas.0604698103
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Parasitism gene 16D10 encodes a conserved RKN secretory peptide that stimulates root growth and functions as a ligand for a putative plant transcription factor. We used in vitro and in vivo RNA interference approaches to silence this parasitism gene in RKN and validate that the parasitism gene has an essential function in RKN parasitism of plants. Ingestion of 16D10 dsRNA in vitro silenced the target parasitism gene in RKN and resulted in reduced nematode infectivity. In vivo expression of 16D10 dsRNA in Arabidopsis resulted in resistance effective against the four major RKN species. 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Parasitism gene 16D10 encodes a conserved RKN secretory peptide that stimulates root growth and functions as a ligand for a putative plant transcription factor. We used in vitro and in vivo RNA interference approaches to silence this parasitism gene in RKN and validate that the parasitism gene has an essential function in RKN parasitism of plants. Ingestion of 16D10 dsRNA in vitro silenced the target parasitism gene in RKN and resulted in reduced nematode infectivity. In vivo expression of 16D10 dsRNA in Arabidopsis resulted in resistance effective against the four major RKN species. 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Parasitism gene 16D10 encodes a conserved RKN secretory peptide that stimulates root growth and functions as a ligand for a putative plant transcription factor. We used in vitro and in vivo RNA interference approaches to silence this parasitism gene in RKN and validate that the parasitism gene has an essential function in RKN parasitism of plants. Ingestion of 16D10 dsRNA in vitro silenced the target parasitism gene in RKN and resulted in reduced nematode infectivity. In vivo expression of 16D10 dsRNA in Arabidopsis resulted in resistance effective against the four major RKN species. Because no known natural resistance gene has this wide effective range of RKN resistance, bioengineering crops expressing dsRNA that silence target RKN parasitism genes to disrupt the parasitic process represents a viable and flexible means of developing novel durable RKN-resistant crops and could provide crops with unprecedented broad resistance to RKN.</abstract><cop>United States</cop><pub>National Academy of Sciences</pub><pmid>16985000</pmid><doi>10.1073/pnas.0604698103</doi><tpages>5</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animals Arabidopsis Arabidopsis - genetics Arabidopsis - parasitology Base Sequence Biological Sciences Conserved Sequence - genetics Double stranded RNA Gene expression Gene Expression Regulation, Plant Genes Genes, Helminth - genetics Hybridity Molecular Sequence Data Nematoda Nematoda - genetics Nematodes Parasites Peptides Plant Diseases - genetics Plant parasitic nematodes Plant roots Plant Roots - parasitology Plants Plants, Genetically Modified Ribonucleic acid RNA RNA - metabolism RNA Interference RNA, Messenger - genetics RNA, Messenger - metabolism Seedlings - metabolism Small interfering RNA Transgenic plants
title	Engineering Broad Root-Knot Resistance in Transgenic Plants by RNAi Silencing of a Conserved and Essential Root-Knot Nematode Parasitism Gene
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