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문주연,정진희,임영길,김재연,Moon, Ju-Yeon,Jung, Jin-Hee,Rim, Yeong-Gil,Datla, Raju,Joliot, Alain,Jackson, David,Kim, Jae-Yean 한국식물생명공학회 2007 식물생명공학회지 Vol.34 No.2
Intercellular signaling is a crucial biological process for the coordination of cell differentiation, organ development and whole plant physiology. The intercellular movement of macromolecule signals such as proteins and RNAs has emerged as a novel mechanism of cell-to-cell communication in plant. Plasmodesmata, which are intercellular symplasmic channels, provide a key pathway for cell-to-cell trafficking of regulatory proteins / RNAs. This review specifically focuses on integrating the recent understanding on non-cell autonomous macromolecules, their function and regulatory mechanisms of intercellular trafficking through plasmodesmata.
Intercellular Trafficking of Homeodomain Proteins
김선원,문주연,정진희,임영길,김재연,Xiongyan Chen,Chunlin Shi,Hey-Jin Kwon,David Jackson,Raju Datla,Alain Joliot 한국식물병리학회 2005 Plant Pathology Journal Vol.21 No.1
Homeotic proteins have pivotal roles during the development of both plant and animals. Many homeotic proteins exert control over cell fate in cells where their genes are not expressed, i.e., in a non-cell autonomous manner. Cell-to-cell communication, which delivers critical information for position-dependent specification of cell fate, is an essential biological process in multicellular organisms. In plants, there are two pathways for intercellular communication that have been identified: the ligand/receptor-mediated apoplastic pathway and the plasmodesmata-mediated symplasmic pathway. Regulatory proteins and RNAs traffic symplasmically via plasmodesmata and play a critical role in intercellular communication. Thus, the non-cell autonomous function of homeotic proteins can be explained by the recent discovery of cell-to-cell trafficking of proteins or RNAs. This article specifically focuses on understanding the intercellular movement of homeodomain proteins, a family of homeotic proteins.
Intercellular Trafficking of Homeodomain Proteins
Kim, Seon-Won,Moon, Jun-Yeon,Jung, Jin-Hee,Chen, Xiongyan,Shi, Chunlin,Rim, Yeong-Gil,Kwon, Hey-Jin,Jackson, David,Datla, Raju,Joliot, Alain,Kim, Jae-Yean The Korean Society of Plant Pathology 2005 Plant Pathology Journal Vol.21 No.1
Homeotic proteins have pivotal roles during the development of both plant and animals. Many homeotic proteins exert control over cell fate in cells where their genes are not expressed, i.e., in a non-cell autonomous manner. Cell-to-cell communication, which delivers critical information for position-dependent specification of cell fate, is an essential biological process in multicellular organisms. In plants, there are two pathways for intercellular communication that have been identified: the ligand/receptor-mediated apoplastic pathway and the plasmodesmata-mediated symplasmic pathway. Regulatory proteins and RNAs traffic symplasmically via plasmodesmata and play a critical role in intercellular communication. Thus, the non-cell autonomous function of homeotic proteins can be explained by the recent discovery of cell-to-cell trafficking of proteins or RNAs. This article specifically focuses on understanding the intercellular movement of homeodomain proteins, a family of homeotic proteins.
Intercellular Trafficking of Homeodomain Proteins
Kim, Seon-Won,Moon, Ju-Yeon,Jung, Jin-Hee,Chen, Xiongyan,Shi, Chunlin,Rim, Yeong-Gil,Kwon, Hey-Jin,David Jackson,Raju Datla,Alain Joliot,Kim, Jae-Yean Plant molecular biology and biotechnology research 2005 Plant molecular biology and biotechnology research Vol.2005 No.
Homeotic proteins have pivotal roles during the development of both plant and animals. Many homeotic proteins exert control over cell fate in cells where their genes are not expressed, I.e., in a non-cell autonomous manner. Cell-to-cell communication, which delivers critical information for position-dependent specification of cell fate, is an essential biological process in multicellular organisms. In plants, there are two pathways for intercellular communication that have been identified: the ligand/receptor-mediated apoplastic pathway and the plasmodesmata-mediated symplasmic pathway. Regulatory proteins and RNAs traffic symplasmically via plasmodesmata and play a critical role in intercellular communication. Thus, the non-cell autonomous function of homeotic proteins can be explained by the recent discovery of cell-to-cell trafficking of proteins of RNAs. This article specifically focuses on understanding the intercellular movement of homeodomain proteins, a family of homeotic proteins.