BIOMAT Database Logo BIOMAT Database Logo

Organization of transcribed and nontranscribed chromatin. 1980

W W Franke, and U Scheer, and H Zentgraf, and M F Trendelenburg, and U Müller, and G Krohne, and H Spring

UI MeSH Term Description Entries
D008854 Microscopy, Electron Microscopy using an electron beam, instead of light, to visualize the sample, thereby allowing much greater magnification. The interactions of ELECTRONS with specimens are used to provide information about the fine structure of that specimen. In TRANSMISSION ELECTRON MICROSCOPY the reactions of the electrons that are transmitted through the specimen are imaged. In SCANNING ELECTRON MICROSCOPY an electron beam falls at a non-normal angle on the specimen and the image is derived from the reactions occurring above the plane of the specimen. Electron Microscopy
D009690 Nucleic Acid Conformation The spatial arrangement of the atoms of a nucleic acid or polynucleotide that results in its characteristic 3-dimensional shape. DNA Conformation,RNA Conformation,Conformation, DNA,Conformation, Nucleic Acid,Conformation, RNA,Conformations, DNA,Conformations, Nucleic Acid,Conformations, RNA,DNA Conformations,Nucleic Acid Conformations,RNA Conformations
D009707 Nucleosomes The repeating structural units of chromatin, each consisting of approximately 200 base pairs of DNA wound around a protein core. This core is composed of the histones H2A, H2B, H3, and H4. Dinucleosomes,Polynucleosomes,Dinucleosome,Nucleosome,Polynucleosome
D011487 Protein Conformation The characteristic 3-dimensional shape of a protein, including the secondary, supersecondary (motifs), tertiary (domains) and quaternary structure of the peptide chain. PROTEIN STRUCTURE, QUATERNARY describes the conformation assumed by multimeric proteins (aggregates of more than one polypeptide chain). Conformation, Protein,Conformations, Protein,Protein Conformations
D002466 Cell Nucleolus Within most types of eukaryotic CELL NUCLEUS, a distinct region, not delimited by a membrane, in which some species of rRNA (RNA, RIBOSOMAL) are synthesized and assembled into ribonucleoprotein subunits of ribosomes. In the nucleolus rRNA is transcribed from a nucleolar organizer, i.e., a group of tandemly repeated chromosomal genes which encode rRNA and which are transcribed by RNA polymerase I. (Singleton & Sainsbury, Dictionary of Microbiology & Molecular Biology, 2d ed) Plasmosome,Cell Nucleoli,Nucleoli, Cell,Nucleolus, Cell,Plasmosomes
D002843 Chromatin The material of CHROMOSOMES. It is a complex of DNA; HISTONES; and nonhistone proteins (CHROMOSOMAL PROTEINS, NON-HISTONE) found within the nucleus of a cell. Chromatins
D002868 Chromosomal Proteins, Non-Histone Nucleoproteins, which in contrast to HISTONES, are acid insoluble. They are involved in chromosomal functions; e.g. they bind selectively to DNA, stimulate transcription resulting in tissue-specific RNA synthesis and undergo specific changes in response to various hormones or phytomitogens. Non-Histone Chromosomal Proteins,Chromosomal Proteins, Non Histone,Chromosomal Proteins, Nonhistone,Non-Histone Chromosomal Phosphoproteins,Chromosomal Phosphoproteins, Non-Histone,Non Histone Chromosomal Phosphoproteins,Non Histone Chromosomal Proteins,Nonhistone Chromosomal Proteins,Proteins, Non-Histone Chromosomal
D004247 DNA A deoxyribonucleotide polymer that is the primary genetic material of all cells. Eukaryotic and prokaryotic organisms normally contain DNA in a double-stranded state, yet several important biological processes transiently involve single-stranded regions. DNA, which consists of a polysugar-phosphate backbone possessing projections of purines (adenine and guanine) and pyrimidines (thymine and cytosine), forms a double helix that is held together by hydrogen bonds between these purines and pyrimidines (adenine to thymine and guanine to cytosine). DNA, Double-Stranded,Deoxyribonucleic Acid,ds-DNA,DNA, Double Stranded,Double-Stranded DNA,ds DNA
D000076 Acetabularia A genus of green algae found in the Mediterranean and other warm seas. Acetabularias
D000818 Animals Unicellular or multicellular, heterotrophic organisms, that have sensation and the power of voluntary movement. Under the older five kingdom paradigm, Animalia was one of the kingdoms. Under the modern three domain model, Animalia represents one of the many groups in the domain EUKARYOTA. Animal,Metazoa,Animalia

Related Publications

W W Franke, and U Scheer, and H Zentgraf, and M F Trendelenburg, and U Müller, and G Krohne, and H Spring
Organization of transcribed and nontranscribed chromatin in isolated nuclei of Zea mays root cells.
February 1981, European journal of cell biology,
W W Franke, and U Scheer, and H Zentgraf, and M F Trendelenburg, and U Müller, and G Krohne, and H Spring
Organization of transcribed regions of chromatin.
May 1978, Philosophical transactions of the Royal Society of London. Series B, Biological sciences,
W W Franke, and U Scheer, and H Zentgraf, and M F Trendelenburg, and U Müller, and G Krohne, and H Spring
The length of nucleosome-associated DNA is the same in both transcribed and nontranscribed regions of chromatin.
May 1978, Nature,
W W Franke, and U Scheer, and H Zentgraf, and M F Trendelenburg, and U Müller, and G Krohne, and H Spring
Chromatin organization of transcribed genes in chicken polychromatic erythrocytes.
May 2019, Gene,
W W Franke, and U Scheer, and H Zentgraf, and M F Trendelenburg, and U Müller, and G Krohne, and H Spring
Opposite replication polarities of transcribed and nontranscribed histone H5 genes.
April 1988, Molecular and cellular biology,
W W Franke, and U Scheer, and H Zentgraf, and M F Trendelenburg, and U Müller, and G Krohne, and H Spring
Transcribed chromatin.
January 1992, Trends in biochemical sciences,
W W Franke, and U Scheer, and H Zentgraf, and M F Trendelenburg, and U Müller, and G Krohne, and H Spring
Melting of transcribed and nontranscribed regions in ribosomal DNA of sea urchin.
June 1985, Indian journal of biochemistry & biophysics,
W W Franke, and U Scheer, and H Zentgraf, and M F Trendelenburg, and U Müller, and G Krohne, and H Spring
Differences between cellular integration sites of transcribed and nontranscribed Rous sarcoma proviruses.
January 1991, Journal of virology,
W W Franke, and U Scheer, and H Zentgraf, and M F Trendelenburg, and U Müller, and G Krohne, and H Spring
Detailed analysis of the nucleosomal organization of transcribed DNA in yeast chromatin.
October 1981, Biochemistry,
W W Franke, and U Scheer, and H Zentgraf, and M F Trendelenburg, and U Müller, and G Krohne, and H Spring
Intranuclear compartmentalization of transcribed and nontranscribed c-myc sequences in Namalva-S cells.
August 1992, European journal of biochemistry,
Copied contents to your clipboard!