BIOMAT Database Logo BIOMAT Database Logo

An ultraviolet light-induced crosslink in yeast tRNA(Phe). 1992

L S Behlen, and J R Sampson, and O C Uhlenbeck
Department of Chemistry and Biochemistry, University of Colorado, Boulder 80309-0215.

The irradiation of native or unmodified yeast tRNA(Phe) by short wavelength UV light (260 nM) results in an intramolecular crosslink that has been mapped to occur between C48 in the variable loop and U59 in the T loop. Photo-reversibility of the crosslink and the absence of fluorescent photo adducts suggest that the crosslink product is a cytidine-uridine cyclobutane dimer. This is consistent with the relative geometries of C48 and U59 in the crystal structure of yeast tRNA(Phe). Evaluation of the crosslinking efficiency of the mutants of tRNA(Phe) indicates that the reaction depends on the correct tertiary structure of the RNA.

UI MeSH Term Description Entries
D008969 Molecular Sequence Data Descriptions of specific amino acid, carbohydrate, or nucleotide sequences which have appeared in the published literature and/or are deposited in and maintained by databanks such as GENBANK, European Molecular Biology Laboratory (EMBL), National Biomedical Research Foundation (NBRF), or other sequence repositories. Sequence Data, Molecular,Molecular Sequencing Data,Data, Molecular Sequence,Data, Molecular Sequencing,Sequencing Data, Molecular
D009154 Mutation Any detectable and heritable change in the genetic material that causes a change in the GENOTYPE and which is transmitted to daughter cells and to succeeding generations. Mutations
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
D011740 Pyrimidine Dimers Dimers found in DNA chains damaged by ULTRAVIOLET RAYS. They consist of two adjacent PYRIMIDINE NUCLEOTIDES, usually THYMINE nucleotides, in which the pyrimidine residues are covalently joined by a cyclobutane ring. These dimers block DNA REPLICATION. Cyclobutane Pyrimidine Dimer,Cyclobutane-Pyrimidine Dimer,Cytosine-Thymine Dimer,Pyrimidine Dimer,Thymine Dimer,Thymine Dimers,Cyclobutane-Pyrimidine Dimers,Cytosine-Thymine Dimers,Thymine-Cyclobutane Dimer,Thymine-Thymine Cyclobutane Dimer,Cyclobutane Dimer, Thymine-Thymine,Cyclobutane Dimers, Thymine-Thymine,Cyclobutane Pyrimidine Dimers,Cytosine Thymine Dimer,Cytosine Thymine Dimers,Pyrimidine Dimer, Cyclobutane,Pyrimidine Dimers, Cyclobutane,Thymine Cyclobutane Dimer,Thymine Thymine Cyclobutane Dimer,Thymine-Cyclobutane Dimers,Thymine-Thymine Cyclobutane Dimers
D003562 Cytidine A pyrimidine nucleoside that is composed of the base CYTOSINE linked to the five-carbon sugar D-RIBOSE. Cytosine Ribonucleoside,Cytosine Riboside,Ribonucleoside, Cytosine,Riboside, Cytosine
D001483 Base Sequence The sequence of PURINES and PYRIMIDINES in nucleic acids and polynucleotides. It is also called nucleotide sequence. DNA Sequence,Nucleotide Sequence,RNA Sequence,DNA Sequences,Base Sequences,Nucleotide Sequences,RNA Sequences,Sequence, Base,Sequence, DNA,Sequence, Nucleotide,Sequence, RNA,Sequences, Base,Sequences, DNA,Sequences, Nucleotide,Sequences, RNA
D012331 RNA, Fungal Ribonucleic acid in fungi having regulatory and catalytic roles as well as involvement in protein synthesis. Fungal RNA
D012360 RNA, Transfer, Phe A transfer RNA which is specific for carrying phenylalanine to sites on the ribosomes in preparation for protein synthesis. Phenylalanine-Specific tRNA,Transfer RNA, Phe,tRNAPhe,tRNA(Phe),Phe Transfer RNA,Phenylalanine Specific tRNA,RNA, Phe Transfer,tRNA, Phenylalanine-Specific
D014466 Ultraviolet Rays That portion of the electromagnetic spectrum immediately below the visible range and extending into the x-ray frequencies. The longer wavelengths (near-UV or biotic or vital rays) are necessary for the endogenous synthesis of vitamin D and are also called antirachitic rays; the shorter, ionizing wavelengths (far-UV or abiotic or extravital rays) are viricidal, bactericidal, mutagenic, and carcinogenic and are used as disinfectants. Actinic Rays,Black Light, Ultraviolet,UV Light,UV Radiation,Ultra-Violet Rays,Ultraviolet Light,Ultraviolet Radiation,Actinic Ray,Light, UV,Light, Ultraviolet,Radiation, UV,Radiation, Ultraviolet,Ray, Actinic,Ray, Ultra-Violet,Ray, Ultraviolet,Ultra Violet Rays,Ultra-Violet Ray,Ultraviolet Black Light,Ultraviolet Black Lights,Ultraviolet Radiations,Ultraviolet Ray
D014529 Uridine A ribonucleoside in which RIBOSE is linked to URACIL. Allo-Uridine,Allouridine,Allo Uridine

Related Publications

L S Behlen, and J R Sampson, and O C Uhlenbeck
Interaction between yeast tRNAVal and yeast valyl-tRNA synthetase studied by monochromatic-ultraviolet-light-induced cross-linking.
November 1979, European journal of biochemistry,
L S Behlen, and J R Sampson, and O C Uhlenbeck
Cleavages induced by different metal ions in yeast tRNA(Phe) U59C60 mutants.
August 1996, Biochemistry,
L S Behlen, and J R Sampson, and O C Uhlenbeck
Aminoacylation of fragment combinations from yeast tRNA phe .
March 1972, European journal of biochemistry,
L S Behlen, and J R Sampson, and O C Uhlenbeck
Calorimetric studies on melting of tRNA Phe (yeast).
January 1977, European journal of biochemistry,
L S Behlen, and J R Sampson, and O C Uhlenbeck
Catalytic RNA reactions of yeast tRNA(Phe) fragments.
November 1992, Biochemistry,
L S Behlen, and J R Sampson, and O C Uhlenbeck
Complementary oligonucleotide binding to yeast tRNA Phe (HCl).
December 1972, FEBS letters,
L S Behlen, and J R Sampson, and O C Uhlenbeck
Interpretation of incomplete aminoacylation of yeast tRNA-Phe: evidence for a phenylalanyl-tRNA synthetase catalyzed transconformation of tRNA-Phe.
January 1974, Biochimie,
L S Behlen, and J R Sampson, and O C Uhlenbeck
Acceptor activity in homologous and heterologous combinations of half molecules from tRNA Phe yeast and tRNA Phe wheat.
September 1969, Biochemical and biophysical research communications,
L S Behlen, and J R Sampson, and O C Uhlenbeck
Large scale purification of tRNA ser , tRNA tyr and tRNA phe from Baker's yeast.
August 1972, Hoppe-Seyler's Zeitschrift fur physiologische Chemie,
L S Behlen, and J R Sampson, and O C Uhlenbeck
Proton exchange and basepair kinetics of yeast tRNA(Phe) and tRNA(Asp1).
March 1995, Journal of biochemistry,
Copied contents to your clipboard!