Project description:The purpose of this study is to explore the influence of the morpho-physiological of Sinapis alba L in response to cadmium challenge
Project description:In this study, the native Sinapis alba plastid-encoded RNA polymerase (PEP) complex was purified and cross-linking MS was used to help in its structure determination.
2024-03-01 | PXD045575 | Pride
Project description:Single cell RNA sequences of Capsella rubella floral cells
| PRJNA898406 | ENA
Project description:Single cell RNA sequences of Brassica rapa floral cells
Project description:RNA polymerases (RNAPs) transcribe DNA into RNA and are found in all living organisms with several degrees of complexity from single polypeptide chain to multimeric enzymes. In chloroplast of angiosperms, two RNAPs are involved in plastid gene transcription: the nuclear-encoded RNA polymerase (NEP) and the plastid-encoded RNA polymerase (PEP). The PEP is a prokaryotic-type multimeric RNAP found in different states depending on light stimuli and cell identity. One of these active states requires the assembly of nuclear-encoded proteins named PEP-Associated Proteins (PAPs) with the catalytic core, triggering the timely transcription of photosynthesis-associated plastid genes in cells acquiring their photosynthetic apparatus. A purification procedure was used to enrich native PEP from Sinapis alba chloroplasts. Crosslinking coupled to mass spectrometry provided initial structural information about the relative position of PEP subunits within the complex.
Project description:RNA polymerases (RNAPs) transcribe DNA into RNA and are found in all living organisms with several degrees of complexity from single polypeptide chain to multimeric enzymes. In chloroplast of angiosperms, two RNAPs are involved in plastid gene transcription: the nuclear-encoded RNA polymerase (NEP) and the plastid-encoded RNA polymerase (PEP). The PEP is a prokaryotic-type multimeric RNAP found in different states depending on light stimuli and cell identity. One of these active states requires the assembly of nuclear-encoded proteins named PEP-Associated Proteins (PAPs) with the catalytic core, triggering the timely transcription of photosynthesis-associated plastid genes in cells acquiring their photosynthetic apparatus. A purification procedure was used to enrich native PEP from Sinapis alba chloroplasts. Mass spectrometry-based proteomic analysis of the obtained fraction identified the expected subunits, i.e. the core components and the PAPs as the most abundant proteins.
2022-09-12 | PXD032738 | Pride
Project description:Single cell RNA sequences from Arabidopsis early floral development
