Project description:Paraburkholderia terrae strain KU-15 has been investigated for its ability to degrade 2-nitrobenzoate. Here, we report the complete 10,422,345-bp genome of this microorganism, which consists of six circular replicons containing 9,483 protein-coding sequences. The genome carries genes that are potentially responsible for 2-nitrobenzoate and 4-nitirobenzoate degradation.
Project description:RAD21 ChIA-PET in human KU-19-19 cells For data usage terms and conditions, please refer to http://www.genome.gov/27528022 and http://www.genome.gov/Pages/Research/ENCODE/ENCODE_Data_Use_Policy_for_External_Users_03-07-14.pdf
Project description:Characterization of the transcriptomic responses of grafted tomato seedlings leaves after the root inoculations with the two beneficial microorganisms Paraburkholderia graminis and Azospirillum brasiliensis. Paraburkholderia graminis treatment led to a higher number of differentially expressed genes than Azospirillum brasiliensis, with a higher amount of up-regulated than down-regulated genes for both treatments. These DEGs were manly involved in response to oxidative stress, response to biotic and abiotic stress, water transport, regulation of transcription and hormones. Only few DEGs were shared among the two treatments, including genes involved in flowering time and in tolerance against abiotic stresses.
Project description:The DNA-dependent protein kinase (DNA-PK), composed of the KU heterodimer and the catalytic subunit (DNA-PKcs), is a classical non-homologous end-joining (cNHEJ) factor1. KU binds to DNA ends, initiates cNHEJ, and recruits and activates DNA-PKcs. Beyond DNA, KU also binds to RNA, with unknown significance in mammals. Using mouse models, we uncovered an unexpected role for DNA-PK in ribosomal RNA (rRNA) biogenesis and hematopoiesis. Expression of kinase-dead (KD) DNA-PKcs (DNA-PKcsKD/KD) abroagates cNHEJ2. But DNA-PKcsKD/KDTp53-/- mice develop myeloid disease rather than pro-B cell lymphoma, like other cNHEJ/Tp53-deficient mice3. DNA-PKcs is its own the best substrate. Blocking DNA-PKcs phosphorylation at the T2609, but not the S2056 cluster leads to KU-dependent 18S rRNA processing defects, compromises global protein synthesis in hematopoietic cells and causes bone marrow failure in mice. KU drives assembly of DNA-PKcs on a broad array of cellular RNAs, including the U3 small nucleolar RNA (snoRNA), which is essential for 18S rRNA processing4. U3 activates purified DNA-PK and triggers T2609 phosphorylation. DNA-PK, but not other cNHEJ factors, resides in nucleoli in an rRNA-dependent manner and is co-purified with the small subunit (SSU) processome. Together our data show that DNA-PK has RNA-dependent, but cNHEJ-independent, functions during ribosome biogenesis that require DNA-PKcs’ kinase activity and T2609 cluster’s phosphorylation.