Project description:Species from the genus Colletotrichum are the causal agents of anthracnose which contribute to significant losses to the production of commercially grown crops. The genomes of Colletotrichum orbiculare, which infects cucurbits and Nicotiana benthamiana, as well as Colletotrichum gloeosporioides, which infects a wide range of fruits and vegetables, were sequenced. A custom microarray was designed for Colletotrichum orbiculare and used to assess gene expression during infection of Nicotiana benthamiana. Gene expression of Colletotrichum orbiculare growing on its host Nicotiana benthamiana was assessed at 24 hours post inoculation, 3 days post inoculation and 7 days post inoculation. Mycelia growing in vitro and ungerminated conidia were used as controls. Three replicates were performed for each time point.

Project description:Analysis of Colletotrichum orbiculare infection of N. benthamiana

Project description:Transcriptome analyses of Colletotrichum orbiculare during appressorium formation in vitro and in planta

Project description:Time course of C. orbiculare infection of the host plant, N. benthamiana, and comparison to in vitro grown tissue (conidia and in vitro grown hyphae) to identify genes that contribute to the infection process by transcript expression profile.

Project description:Colletotrichum orbiculare Whi2, yeast stress response Whi2 homolog, is involved in switch from biotrophic to necrotrophic stage. To elucidate downstream genes regulated by Co Whi2, we have conducted DNA microarray. About 3100 genes were up or down regulated in the Co whi2Δ mutant compared with the wild-type. In particularly, 44 genes among up-regulated 58 genes in the Co whi2Δ mutant are ribosomal protein related gene. Eukaryote is widely conserved TOR (Target Of Rapamycin) which is known to regulator of ribosomal gene expression. To elucidate whether up-regulated ribosomal genes in the Co whi2Δ mutant are regulated by TOR activity, we have conducted DNA microarray in the Co whi2Δ mutant treated with rapamycin inhibiting TOR activity. The enormous ribosomal gene expression in the Co whi2Δ mutant treated with the rapamycin is lower than that without rapamycin treatment.

Project description:Colletotrichum incanum MAFF 238704 genome sequencing and assembly

Project description:Colletotrichum orbiculare Whi2, yeast stress response Whi2 homolog, is involved in switch from biotrophic to necrotrophic stage. To elucidate downstream genes regulated by Co Whi2, we have conducted DNA microarray. About 3100 genes were up or down regulated in the Co whi2Δ mutant compared with the wild-type. In particularly, 44 genes among up-regulated 58 genes in the Co whi2Δ mutant are ribosomal protein related gene. Eukaryote is widely conserved TOR (Target Of Rapamycin) which is known to regulator of ribosomal gene expression. To elucidate whether up-regulated ribosomal genes in the Co whi2Δ mutant are regulated by TOR activity, we have conducted DNA microarray in the Co whi2Δ mutant treated with rapamycin inhibiting TOR activity. The enormous ribosomal gene expression in the Co whi2Δ mutant treated with the rapamycin is lower than that without rapamycin treatment. In gene expression of the Co whi2Δ mutant, the wild-type and the Co whi2Δ mutant infecting on cucumber cotyledons were assessed at 4 hours post-inoculation. In gene expression of the Co whi2Δ mutant with rapamycin treatment, Co whi2Δ mutant treated with 100nM rapamycin and Co whi2Δ mutant without rapamycin treatment infecting on cucumber cotyledons were assesed at 4 hours post-inoculation. Four replication were performed for each experiments.

Project description:MafF-/-: MafG+/+: MafK-/- mice are viable, while MafF-/-: MafG-/-: MafK-/- mice are embryonic lethal. To get an insight into the cause of the lethality of small Maf triple knockout mice, transcriptome analysis was performed using whole embyos of MafF-/-: MafG-/-: MafK-/- at E10.5 and those of MafF-/-: MafG+/+: MafK-/- at E9.5 or E10.5. Because MafF-/-: MafG-/-: MafK-/- embryos exhibit growth retardation, the gene expression profile of MafF-/-: MafG-/-: MafK-/- embryos at E10.5 was compared with that of MafF-/-: MafG+/+: MafK-/- embyos at E9.5. The gene expression profile of MafF-/-: MafG+/+: MafK-/- embryos at E10.5 was also examined as an alternative control. Total RNA was prepared from pooled three embryos for each sample.

Project description:Transcriptome analyses of Colletotrichum orbiculare during appressorium formation in planta

Project description:MafF-/-: MafG+/+: MafK-/- mice are viable, while MafF-/-: MafG-/-: MafK-/- mice are embryonic lethal. To get an insight into the cause of the lethality of small Maf triple knockout mice, transcriptome analysis was performed using whole embyos of MafF-/-: MafG-/-: MafK-/- at E10.5 and those of MafF-/-: MafG+/+: MafK-/- at E9.5 or E10.5. Because MafF-/-: MafG-/-: MafK-/- embryos exhibit growth retardation, the gene expression profile of MafF-/-: MafG-/-: MafK-/- embryos at E10.5 was compared with that of MafF-/-: MafG+/+: MafK-/- embyos at E9.5. The gene expression profile of MafF-/-: MafG+/+: MafK-/- embryos at E10.5 was also examined as an alternative control.