Abstract: The present inventors succeeded in cloning a rice stress-responsive gene, RSI1. They discovered that stress-responsive plants can be generated by using the isolated gene, or genes functionally equivalent thereto. The present invention is useful in fields such as plant breeding.

Abstract: A plant having improved heat tolerance and/or increased growth is produced by steps of: introducing DNA into a plant cell to produce a transformed plant cell, wherein the DNA is selected from the group consisting of: (a) DNA coding for a protein consisting of the amino acid sequence represented by SEQ ID NO: 2, (b) DNA including the coding region of the nucleotide sequence represented by SEQ ID NO: 1, (c) DNA coding for a protein having an amino acid sequence represented by SEQ ID NO: 2 in which one or a few amino acids are substituted, deleted, inserted, and/or added, and being involved in growth promoting effect and heat tolerance, (d) DNA hybridizing with DNA consisting of the nucleotide sequence represented by SEQ ID NO: 1 under stringent conditions and coding for a protein which is involved in growth promoting effect and heat tolerance, and (e) DNA coding for a protein having an amino acid sequence having 90% or more identity with the amino acid sequence represented by SEQ ID NO: 2 and being involved in

Abstract: The present inventors succeeded in cloning a rice stress-responsive gene, RSI1. They discovered that stress-responsive plants can be generated by using the isolated gene, or genes functionally equivalent thereto. The present invention is useful in fields such as plant breeding.

Abstract: The invention relates to isolated genes encoding polypeptides that interact with calreticulin (CRT), plants and plant cells transformed with the CRT genes for resistance against cold stress, and methods of producing the transformed plants and cells.

Abstract: The present invention provides novel anther-specific genes, their promoters, and uses of the same. Rice seedlings were treated with gibberellin, and then genes and proteins with up-regulated expression were screened using DNA microarray analysis and proteome analysis. As a result, eight types of ?-tubulins were identified. Among them, OsTUB8 was expressed specifically in the anther. Thus OsTUB8 was suggested to be involved in male sterility in rice, and it was thought that regulating OsTUB8 expression in plants could alter plant fertility. In addition, OsTUB8 promoters were thought to comprise anther-specific activity. Thus, the present invention can be said to be highly valuable when used as a tool for anther-specific gene expression.

Abstract: The objective of the present invention is to isolate and identify genes responsive to plant hormones, such as, brassinolide, and to provide these genes and their use. The present inventors found two novel genes (referred to as OsBLE1 gene and OsBLE2 gene) whose expressions are markedly increased by brassinolide and auxin, using DNA microarray techniques and Northern blotting. Transformed rice plants were produced using Agrobacterium EHA101 which comprise antisense polynucleotide against OsBLE1 and OsBLE2 under the control of the CaMV35S promoter in a binary vector pIG121-Hm. As a result, the transformed rice plants exhibited inhibition in stem and leaf growth as compared with controls which carried the vector alone.

Abstract: It was found that nucleic acids or proteins can be effectively differentiated and identified, without being particularly restricted by the number of types of those nucleic acids or proteins, by binding them to a large scale integrated circuit (LSI) which is externally writable and readable without contact, and recording the nucleic acid or protein information on the LSI.

Abstract: The present invention provides novel anther-specific genes, their promoters, and uses of the same. Rice seedlings were treated with gibberellin, and then genes and proteins with up-regulated expression were screened using DNA microarray analysis and proteome analysis. As a result, eight types of ?-tubulins were identified. Among them, OsTUB8 was expressed specifically in the anther. Thus OsTUB8 was suggested to be involved in male sterility in rice, and it was thought that regulating OsTUB8 expression in plants could alter plant fertility. In addition, OsTUB8 promoters were thought to comprise anther-specific activity. Thus, the present invention can be said to be highly valuable when used as a tool for anther-specific gene expression.

Abstract: The objective of the present invention is to isolate and identify genes responsive to plant hormones, such as, brassinolide, and to provide these genes and their use. The present inventors found two novel genes (referred to as OsBLE1 gene and OsBLE2 gene) whose expressions are markedly increased by brassinolide and auxin, using DNA microarray techniques and Northern blotting. Transformed rice plants were produced using Agrobacterium EHA101 which comprise antisense polynucleotide against OsBLE1 and OsBLE2 under the control of the CaMV35S promoter in a binary vector pIG121-Hm. As a result, the transformed rice plants exhibited inhibition in stem and leaf growth as compared with controls which carried the vector alone.

Abstract: An objective of the present invention is to isolate and identify a gene encoding the polypeptide that interacts with calreticulin (CRT), and to provide the gene and the use thereof. Specifically, an objective of the present invention is to provide the CRTintP gene, the transformed plants comprising the CRTintP gene, and a method of producing these transformed plants. The present inventors successfully detected a group of CRT-interacting genes using the yeast two-hybrid method. As a result, the present inventors detected the polynucleotide encoding the CRT-interacting polypeptide (named as CRTintP). Furthermore, the present inventors isolated the full-length cDNA encoding the CRTintP and revealed that the gene encoding the cDNA was novel. It was found that the expression of the CRT and CRTintP genes was significantly increased following application of cold stress in rice leaves.