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M. Griffiths, W. Sistrom, G. Cohen-Bazire, R. Stanier (1955)
Function of Carotenoids in PhotosynthesisNature, 176
C. Sorokin, J. Myers (1953)
A high-temperature strain of Chlorella.Science, 117 3039
B. Mcclintock (1951)
Chromosome organization and genic expression.Cold Spring Harbor symposia on quantitative biology, 16
S. Granick (1951)
Biosynthesis of Chlorophyll and Related PigmentsAnnual Review of Plant Biology, 2
E. Davis (1952)
PHOTOSYNTHETIC CHLORELLA MUTANTSAmerican Journal of Botany, 39
G. Beadle, E. Tatum (1941)
Genetic Control of Biochemical Reactions in NeurosporaProceedings of the National Academy of Sciences of the United States of America, 27
M. Dworkin (1958)
ENDOGENOUS PHOTOSENSITIZATION IN A CAROTENOIDLESS MUTANT OF RHODOPSEUDOMONAS SPHEROIDESThe Journal of General Physiology, 41
A. Goldstein, J. Smoot (1955)
A STRAIN OF ESCHERICHIA COLI WITH AN UNUSUALLY HIGH RATE OF AUXOTROPHIC MUTATIONJournal of Bacteriology, 70
H. Claes, T. Nakayama (1959)
Notizen: Das photoxydative Ausbleichen von Chlorophyll in vitro in Gegenwart von Carotinen mit verschiedenen chromophoren GruppenZeitschrift für Naturforschung B, 14
H. Claes (1954)
Analyse der biochemischen Synthesekette für Carotinoide mit Hilfe von Chlorella-MutantenZeitschrift für Naturforschung B, 9
S. Zamenhof, S. Greer (1958)
Heat as an Agent producing High Frequency of Mutations and Unstable Genes in Escherichia coliNature, 182
R. Levine (1960)
A Screening Technique for Photosynthetic Mutants in Unicellular AlgæNature, 188
J. Myers, C. French (1960)
Evidences from Action Spectra for a Specific Participation of Chlorophyll b in PhotosynthesisThe Journal of General Physiology, 43
M. Allen, T. Goodwin, S. Phagpolngarm (1960)
Carotenoid distribution in certain naturally occurring algae and in some artificially induced mutants.Journal of general microbiology, 23
R. Sager, M. Zalokar (1958)
Pigments and Photosynthesis in a Carotenoid-Deficient Mutant Of chlamydomonasNature, 182
Knud Møller, D. Prescott (1955)
Spectroscopic Observations on Commercial Preparations of Cytochrome cNature, 176
R. Sager (1960)
Genetic systems in Chlamydomonas.Science, 132 3438
S. Zamenhof, S. Greer, R. Giovanni (1958)
STUDY OF SPONTANEOUS GENE UNSTABILIZATION IN ESCHERICHIA COLIJournal of Bacteriology, 75
S. Granick (1948)
Protoporphyrin 9 as a precursor of chlorophyll.The Journal of biological chemistry, 172 2
L. Bogorad, S. Granick (1953)
Protoporphyrin precursors produced by a Chlorella mutant.The Journal of biological chemistry, 202 2
R. Lewin (1952)
Ultraviolet induced mutations in Chlamydomonas moewusii Gerloff.Journal of general microbiology, 6 3-4
M. Allen, L. Piette, J. Murchio (1961)
Observation of two photoreactions in photosynthesis.Biochemical and biophysical research communications, 4
Robert Emerson, Ruth Chalmers, Carl Cederstrand (1957)
SOME FACTORS INFLUENCING THE LONG-WAVE LIMIT OF PHOTOSYNTHESIS.Proceedings of the National Academy of Sciences of the United States of America, 43 1
M. Rhoades (1938)
Effect of the Dt Gene on the Mutability of the a(1) Allele in Maize.Genetics, 23 4
Jeanette Brown, C. French (1959)
Absorption Spectra and Relative Photostability of the Different Forms of Chlorophyll in Chlorella.Plant physiology, 34 3
W. Sistrom, M. Griffiths, R. Stanier (1956)
The biology of photosynthetic bacterium which lacks colored carotenoids.Journal of cellular and comparative physiology, 48 3
Edward Tatum, G. Beadle (1942)
Genetic Control of Biochemical Reactions in Neurospora: An "Aminobenzoicless" Mutant.Proceedings of the National Academy of Sciences of the United States of America, 28 6
M. Allen (1960)
Comparative biochemistry of photoreactive systems
S. Zamenhof, R. Giovanni (1958)
STUDY OF SURVIVAL OF UNSTABLE STRAINS OF ESCHERICHIA COLIJournal of Bacteriology, 75
D. Schwartz (1960)
Analysis of a Highly Mutable Gene in Maize. a Molecular Model for Gene Instability.Genetics, 45 8
Archiv fiir 3/Iikrobiologie 41, 115141 (1962) Laboratory of Comparative Biology Kaiser Foundation l~esearch Institute Richmond, California By SELINA BENDIX and MARY BELLE ALLEN (Received August 14, 1961) F o u r y e a r s ago a n u m b e r o f m u t a n t s of Chlorella pyrenoidosa for use in p h y s i o l o g i c a l a n d genetic studies was p r e p a r e d in this l a b o r a t o r y . M o s t o f t h e strains h a v e been affected in one w a y or a n o t h e r in t h e i r p i g m e n t s y s t e m s , so t h a t s y n t h e s i s o f c h l o r o p h y l l s or carotenoids, or b o t h , d e v i a t e s from n o r m
Archives of Microbiology – Springer Journals
Published: Jun 1, 1962
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