Project description:needle1 (ndl1) encodes a mitochondria localized ATPase required for thermotolerant maize growth

Project description:needle1 (ndl1) encodes a mitochondria localized ATPase required for thermotolerant maize growth [greenhouse]

Project description:needle1 (ndl1) encodes a mitochondria localized ATPase required for thermotolerant maize growth [field]

Project description:RNA-seq was performed on 5-10mm maize tassels

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:RNA-seq was performed on 2-4mm WT and Bif1;Bif4 double heterozygous mutant maize tassels grown in a greenhouse

Project description:RNA-seq was performed on 2-4mm WT and ndl1 mutant maize tassels

Project description:Meristems are highly regulated structures ultimately responsible for the formation of branches, lateral organs, and stems, and thus directly affect plant architecture and crop yield. In meristems, genetic networks, hormones, and signaling molecules are tightly integrated to establish robust systems that can adapt growth to continuous inputs from the environment. Here we characterized needle1 (ndl1), a temperature-sensitive maize mutant that displays severe reproductive defects and strong genetic interactions with known mutants affected in the regulation of the plant hormone auxin. NDL1 encodes a mitochondria-localized ATP-dependent metalloprotease belonging to the FILAMENTATION TEMPERATURE-SENSITIVE H (FTSH) family. Together with the hyperaccumulation of reactive oxygen species (ROS), ndl1 inflorescences show up-regulation of a plethora of stress-response genes. We provide evidence that these conditions alter endogenous auxin levels and disrupt primordia initiation in meristems. These findings connect meristem redox status and auxin in the control of maize growth.

Project description:Mitochondria-localized MBD2c facilitates mtDNA transcription and drug resistance

Project description:Mitochondria-localized MBD2c facilitates mtDNA transcription and drug resistance [Bisulfite-Seq]