An electron microscopic study of the archaeal feast/famine regulatory protein : 3. Labeling of the N-terminus using nickel

スポンサーリンク

概要

• 論文の詳細を見る

• Histidine residues added to the N-terminus of a polypeptide (i.e. a His-tag) was used, for the first time to our knowledge, for electron labeling of the protein upon its electron spectroscopic imaging. Originally such a His-tag was developed by another group to purify modified proteins by taking advantage of their affinity to nickel. The feast/famine regulatory protein pot0434017 (FL11) was modified by adding six His residues to its N-terminus, so that each His pair would chelate a nickel ion. An electron microscope was operated at 200 KeV, and the electrons that lost the energy by ~875 eV upon interaction with the metal were selectively focused. The majority, 60-70%, of the spots detected in the electron micrographs were paired by distances shorter than 80 Å and over 70% of them were paired by distances shorter than 40 Å It is concluded that the protein molecules formed dimers, and the termini of most of the protein molecules were labeled with nickel by this method. (Communicated by Masanori OTSUKA, M.J.A., Feb. 12, 2004)

• 日本学士院の論文

著者

• Suzuki Masashi

  National Institute Of Advanced Industrial Science And Technology

• Ishijima Sanae

  National Institute of Advanced Industrial Science and Technology (AIST)

• Clowney Lester

  National Institute of Advanced Industrial Science and Technology (AIST)

• Koike Hideaki

  National Institute of Advanced Industrial Science and Technology (AIST)

• Koike H

  National Inst. Advanced Industrial Sci. And Technol. Ibaraki Jpn

• Clowney Lester

  National Inst. Of Advanced Industrial Sci. And Technol. (aist) Aist Tsukuba Center

関連論文

• An electron microscopic study of the archaeal feast/famine regulatory protein : 2. Crystal formation by a full length FFRP, pot0434017 (FL11)
• An electron microscopic study of the archaeal feast/famine regulatory protein : 3. Labeling of the N-terminus using nickel
• An electron microscopic study of the archaeal feast/famine regulatory protein : 7. Single particles formed by pot0434017
• An electron microscopic study of the archaeal feast/famine regulatory protein : 4. Estimation of the particle size
• An electron microscopic study of the archaeal feast/famine regulatory protein : 5. Fourier filtration of images
• An electron microscopic study of the archaeal feast/famine regulatory protein : 6. The cylindrical assembly form
• The DNA-binding domain of feast/famine regulatory protein, FFRP
• Identification of promoter sequences using archaeal genomic sequences
• Structure and function of the feast/famine regulatory proteins, FFRPs
• Feast/famine regulatory proteins of a multiple drug resistant, Pseudomonas aeruginosa
• Binding of the feast/famine regulatory protein (FFRP) FL11 (pot0434017) to DNA in the "promoter to coding" region of gene fl11
• Transcription Regulation by Feast/Famine Regulatory Proteins, FFRPs, in Archaea and Eubacteria
• Identification of promoter sequences using archaeal genomic sequences : 2. Analysis of a meso-thermophile, Thermoplasma volcanium
• Effects of amino acids on assembling of an archaeal feast/famine regulatory protein, DM1 (pot1216151)
• Light scattering from assemblies of an archaeal feast/famine regulatory protein, DM1 (pot1216151)
• GATC Methylation by Dam methylase in archaea: its roles and possible transcription regulation by an FFRP
• Enzymes identified using genomic DNA sequences suggest some atypical characteristics of de novo biosynthesis of purines in archaebacteria
• Archaebacterial ribosome is a chimera of eubacterial-type RNAs and eukaryotic-type proteins.
• Distribution and orientation of genes in the genome of Pyrococcus OT3
• Prophages inserted in archaebacterial genomes
• Comparison of archaebacterial central metabolic pathways using the genomic DNA sequences
• Identification of genes in the complete genomic DNA sequence of a hyper-thermophilic archaeon, Pyrococcus sp. OT3
• Informatic identification of blocks of ordered nucleotide sequences in human chromosome 22
• Comparison of pathways for amino acid biosynthesis in archaebacteria using their genomic DNA sequences
• Orthologous and paralogous FFRPs in E. coli and related proteobacteria
• A SELEX study of the DNA-binding specificity of archaeal FFRPs:2. FL4 (pot1613368)
• A SELEX study of the DNA-binding specificity of archaeal FFRPs: FL10 (pot0377090, LrpA)
• Identification of proteins present in the archaeon Thermoplasma volcanium cultured in aerobic or anaerobic conditions
• Visual representation of the complete genomic DNA sequence of the thermophilic archaeon Thermoplasma volcanium
• Localization of A:T and G:C basepairs in genomes of higher eukaryotes
• Nucleotide sequences of the plastid and nuclear chromosome I of the unicellular red alga Cyanidioschyzon merolae
• Formation of thymine clusters in genomes of higher eukaryotes
• Comparison of foot-prints of FFRPs on promoters designed for autoregulation: FL10 (pot0377090, LrpA), FL11 (pot0434017), and Ss/Sa-Lrp
• Characteristics of DNA superstructures formed upon interaction with feast/famine regulatory proteins, FFRPs
• An electron microscopic study of the archaeal feast/famine regulatory protein
• A possible disk to cylinder transition of assemblies of feast/famine regulatory proteins, FFRPs
• The DNA-binding specificity of eubacterial and archaeal FFRPs

もっと見る 閉じる

スポンサーリンク