Compounds > acetylene
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acetylene and vanadium

acetylene has been researched along with vanadium in 11 studies

Research

Studies (11)

TimeframeStudies, this research(%)All Research%
pre-19906 (54.55)18.7374
1990's4 (36.36)18.2507
2000's0 (0.00)29.6817
2010's1 (9.09)24.3611
2020's0 (0.00)2.80

Authors

AuthorsStudies
Brill, WJ; Imperial, J; Ludden, PW; Shah, VK; Ugalde, RA1
Bishop, PE; Joerger, RD; Premakumar, R1
Eady, RR; Miller, RW1
Benemann, JR; Kamen, MD; Lie, RF; McKenna, CE; Traylor, TG1
Benemann, JR; McKenna, CE; Traylor, TG1
Bishop, PE; Hetherington, DR; Jarlenski, DM1
Lyons, EM; Thiel, T1
Bishop, PE; Mylona, PV; Pau, RN; Premakumar, R1
Thiel, T1
Bageshwar, UK; Das, HK; Raina, R1
Blank, MA; Fay, AW; Hedman, B; Hodgson, KO; Hu, Y; Lee, CC; Ribbe, MW1

Other Studies

11 other study(ies) available for acetylene and vanadium

ArticleYear
In vitro synthesis of the iron-molybdenum cofactor of nitrogenase.
    Proceedings of the National Academy of Sciences of the United States of America, 1986, Volume: 83, Issue:6

    Topics: Acetylene; Adenosine Triphosphate; Azotobacter; Bacterial Proteins; Cell-Free System; Chloramphenicol; Electron Spin Resonance Spectroscopy; Enzyme Activation; Ferredoxins; Genes, Bacterial; Genetic Complementation Test; Klebsiella pneumoniae; Molybdenum; Molybdoferredoxin; Nitrogen Fixation; Nitrogenase; Operon; Protein Processing, Post-Translational; Tungsten; Tungsten Compounds; Vanadates; Vanadium

1986
Tn5-induced mutants of Azotobacter vinelandii affected in nitrogen fixation under Mo-deficient and Mo-sufficient conditions.
    Journal of bacteriology, 1986, Volume: 168, Issue:2

    Topics: Acetylene; Azotobacter; Culture Media; Dinitrogenase Reductase; DNA Transposable Elements; Ferredoxins; Genes, Bacterial; Molybdenum; Mutation; Nitrogen Fixation; Nitrogenase; Oxidation-Reduction; Vanadium

1986
Cyanamide: a new substrate for nitrogenase.
    Biochimica et biophysica acta, 1988, Feb-10, Volume: 952, Issue:3

    Topics: Acetylene; Ammonia; Cyanamide; Cyanides; Hydrogen; Kinetics; Methane; Methylamines; Molybdenum; Nitrogenase; Oxidation-Reduction; Substrate Specificity; Vanadium

1988
The vanadium effect in nitrogen fixation by azotobacter.
    Biochimica et biophysica acta, 1972, Mar-30, Volume: 264, Issue:1

    Topics: Acetylene; Argon; Azotobacter; Chromatography, DEAE-Cellulose; Chromatography, Gas; Colorimetry; Drug Stability; Ferredoxins; Hot Temperature; Molybdenum; Nitrogen Fixation; Oxidoreductases; Oxygen; Species Specificity; Spectrum Analysis; Tungsten; Vanadium

1972
A vanadium containing nitrogenase preparation: implications for the role of molybdenum in nitrogen fixation.
    Biochemical and biophysical research communications, 1970, Dec-24, Volume: 41, Issue:6

    Topics: Acetylene; Azotobacter; Binding Sites; Cell-Free System; Culture Media; Dialysis; Kinetics; Molybdenum; Nitrogen Fixation; Oxidoreductases; Vanadium

1970
Expression of an alternative nitrogen fixation system in Azotobacter vinelandii.
    Journal of bacteriology, 1982, Volume: 150, Issue:3

    Topics: Acetylene; Azotobacter; Electron Spin Resonance Spectroscopy; Electrophoresis, Polyacrylamide Gel; Molybdenum; Nitrogen Fixation; Nitrogenase; Rhenium; Vanadium

1982
Characterization of nifB, nifS, and nifU genes in the cyanobacterium Anabaena variabilis: NifB is required for the vanadium-dependent nitrogenase.
    Journal of bacteriology, 1995, Volume: 177, Issue:6

    Topics: Acetylene; Anabaena; Bacterial Proteins; Cloning, Molecular; Genes, Bacterial; Genetic Complementation Test; Mutagenesis; Nitrogen Fixation; Nitrogenase; Restriction Mapping; Transcription, Genetic; Vanadium

1995
Characteristics of orf1 and orf2 in the anfHDGK genomic region encoding nitrogenase 3 of Azotobacter vinelandii.
    Journal of bacteriology, 1996, Volume: 178, Issue:1

    Topics: Acetylene; Azotobacter vinelandii; Bacterial Proteins; Genes, Bacterial; Molecular Sequence Data; Molybdenum; Mutation; Nitrogen Fixation; Nitrogenase; Open Reading Frames; Oxidation-Reduction; Sequence Analysis, DNA; Vanadium

1996
Isolation and characterization of the VnfEN genes of the cyanobacterium Anabaena variabilis.
    Journal of bacteriology, 1996, Volume: 178, Issue:15

    Topics: Acetylene; Amino Acid Sequence; Anabaena; Azotobacter vinelandii; Bacterial Proteins; Cloning, Molecular; Evolution, Molecular; Genes, Bacterial; Molecular Sequence Data; Multigene Family; Mutagenesis, Insertional; Nitrogen Fixation; Oxidation-Reduction; Sequence Homology, Amino Acid; Vanadium

1996
Characterization of a spontaneous mutant of Azotobacter vinelandii in which vanadium-dependent nitrogen fixation is not inhibited by molybdenum.
    FEMS microbiology letters, 1998, May-01, Volume: 162, Issue:1

    Topics: Acetylene; Azotobacter vinelandii; Gene Expression; Molybdenum; Mutation; Nitrate Reductase; Nitrate Reductases; Nitrogen Fixation; Nitrogenase; Oxidation-Reduction; Oxidoreductases; Recombinant Fusion Proteins; Tungsten Compounds; Vanadium; Vanadium Compounds

1998
Characterization of isolated nitrogenase FeVco.
    Journal of the American Chemical Society, 2010, Sep-15, Volume: 132, Issue:36

    Topics: Acetylene; Ammonia; Azotobacter; Biocatalysis; Crystallography, X-Ray; Ethane; Models, Molecular; Molybdenum; Nitrogen; Nitrogenase; Substrate Specificity; Vanadium

2010