Abstract: Provided are protoporphyrinogen IX oxidases derived from various organism or variants thereof, and uses of the same for conferring and/or enhancing herbicide tolerance of a plant and/or an alga.

Abstract: Provided is technology for conferring enhanced herbicide tolerance and/or enhancing herbicide tolerance of plants and/or algae using a protoporphyrinogen oxidase derived from prokaryotes or its amino acid variants.

Abstract: Provided is technology for conferring enhanced tolerance and/or enhancing tolerance to herbicide of a plant and/or algae using amino acid variants of protoporphyrinogen oxidase derived from prokaryotes.

Abstract: Provided is a technology for conferring more enhanced tolerance of plants and/or algae against herbicides and/or more greatly enhancing tolerance by using amino acid variants of protoporphyrinogen IX oxidases derived from microorganisms.

Abstract: Provided is a technology for conferring enhanced tolerance and/or enhancing tolerance to a herbicide of a plant and/or algae by using amino acid variants of protoporphyrinogen IX oxidase derived from prokaryotes.

Abstract: Provided are methods for conferring and/or enhancing herbicide resistance on plants or algae including agricultural crops by introducing prokaryote-derived protoporphyrinogen oxidase variants.

Abstract: Provided is a technology for conferring enhanced tolerance and/or enhancing tolerance to a herbicide of a plant and/or algae by using amino acid variants of protoporphyrinogen IX oxidase derived from prokaryotes.

Abstract: Provided is technology for conferring enhanced herbicide tolerance and/or enhancing herbicide tolerance of plants and/or algae using a protoporphyrinogen oxidase derived from prokaryotes or its amino acid variants.

Abstract: Provided is technology for conferring enhanced herbicide tolerance and/or enhancing herbicide tolerance of plants and/or algae using a protoporphyrinogen oxidase derived from prokaryotes or its amino acid variants.

Abstract: Provided are methods for conferring and/or enhancing herbicide resistance on plants or algae including agricultural crops by introducing prokaryote-derived protoporphyrinogen oxidase variants.

Abstract: Provided are methods for conferring and/or enhancing herbicide resistance on plants or algae including agricultural crops by introducing prokaryote-derived protoporphynnogen oxidase variants.

Abstract: Disclosed is a PHD protein regulating the differentiation of plant phloem; a recombinant vector containing a gene encoding the same; a plant transformed with the recombinant vector; a seed of the plant; and a method for regulating the development and formation of plant phloem by using the gene encoding the PHD protein. Regulated is the development of phloem, which plays the role in moving a photosynthetic product and finally storing the same in starch and sugar forms in a plant storage organ, so as to regulate the function of phloem, thereby having an effect of controlling the size and storage capacity of the plant storage organ. The development of phloem can be improved by allowing the PHD gene to be silent in plants, and thus it is expected that the function of plant phloem can be increased through the regulation of PHD gene expression by using genetic engineering techniques.

Abstract: Provided is technology for conferring enhanced tolerance and/or enhancing tolerance to herbicide of a plant and/or algae using amino acid variants of protoporphyrinogen oxidase derived from prokaryotes.

Abstract: Provided is technology for conferring enhanced herbicide tolerance and/or enhancing herbicide tolerance of plants and/or algae using a protoporphyrinogen oxidase derived from prokaryotes or its amino acid variants.

Abstract: Provided are methods for conferring and/or enhancing herbicide resistance on plants or algae including agricultural crops by introducing prokaryote-derived protoporphynnogen oxidase variants.

Abstract: Disclosed is a PHD protein regulating the differentiation of plant phloem; a recombinant vector containing a gene encoding the same; a plant transformed with the recombinant vector; a seed of the plant; and a method for regulating the development and formation of plant phloem by using the gene encoding the PHD protein. Regulated is the development of phloem, which plays the role in moving a photosynthetic product and finally storing the same in starch and sugar forms in a plant storage organ, so as to regulate the function of phloem, thereby having an effect of controlling the size and storage capacity of the plant storage organ. The development of phloem can be improved by allowing the PHD gene to be silent in plants, and thus it is expected that the function of plant phloem can be increased through the regulation of PHD gene expression by using genetic engineering techniques.