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» Authors » F A Eiserling

F A Eiserling

Explore the profile of F A Eiserling including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 46
Citations 684
Followers 0
Related Specialties
Microbiology
Biochemistry
Cell Biology
Top 10 Co-Authors
R L Duda
M Gingery
R H Epstein
L K Anderson
L K Ishimoto
M L Parker
S M Brown
D Eisenberg
J King
W R Romig
Published In
Virology
J Virol
J Mol Biol
J Ultrastruct Res
J Bacteriol
Affiliations
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Recent Articles
11.
Asymmetrical core structure in phycobilisomes of the cyanobacterium Synechocystis 6701
Anderson L, Eiserling F
J Mol Biol . 1986 Oct; 191(3):441-51. PMID: 3102748
The light-harvesting complex of cyanobacteria and red algae, the phycobilisome, has two structural domains, the core and the rods. Both contain biliproteins and linker peptides. The core contains the site...
12.
Potential length determiner and DNA injection protein is extruded from bacteriophage T4 tail tubes in vitro
Duda R, Gingery M, Eiserling F
Virology . 1986 Jun; 151(2):296-314. PMID: 2939620
Bacteriophage T4 tails contain a set of extended protein molecules in the central channel of the tail tube through which the DNA must exit during infection. Treatment of tails with...
13.
Mass distribution of a probable tail-length-determining protein in bacteriophage T4
Duda R, Wall J, Hainfeld J, Sweet R, Eiserling F
Proc Natl Acad Sci U S A . 1985 Aug; 82(16):5550-4. PMID: 3161081
Analysis of dark-field scanning transmission electron micrographs of unstained freeze-dried specimens established that the interior of the intact bacteriophage T4 tail tube contains extra density that is missing in tubes...
14.
Intracellular morphogenesis of bacteriophage T4. II. Head morphogenesis
Eiserling F, Corso J, Feng S, Epstein R
Virology . 1984 Aug; 137(1):95-101. PMID: 6382791
The relative phage yields of cells of Escherichia coli infected with both wild-type and amber mutant phages deficient in head morphogenesis were determined. The decrease in burst size as a...
15.
Intracellular morphogenesis of bacteriophage T4. I. Gene dosage effects on early functions and tail fiber assembly
Eiserling F, Fluck M, Epstein R
Virology . 1984 Aug; 137(1):86-94. PMID: 6382790
Mixed infection of nonpermissive bacteria by amber mutant and wild-type T4 phage reduces the burst size in a manner that depends on the nature of the gene product eliminated by...
16.
Regulation of Nostoc sp. phycobilisome structure by light and temperature
Anderson L, Rayner M, Sweet R, Eiserling F
J Bacteriol . 1983 Sep; 155(3):1407-16. PMID: 6411691
Nostoc sp. strain MAC cyanobacteria were green in color when grown in white light at 30 degrees C and contained phycobilisomes that had phycoerythrin and phycocyanin in a molar ratio...
17.
Bacteriophage SPO1 structure and morphogenesis. III. SPO1 proteins and synthesis
Parker M, Eiserling F
J Virol . 1983 Apr; 46(1):260-9. PMID: 6827651
The virion proteins of SPO1 have been determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis methods on purified phage components and on phage lysates. The phage head contains 16 proteins, and...
18.
Bacteriophage SPO1 structure and morphogenesis. II. Head structure and DNA size
Parker M, Ralston E, Eiserling F
J Virol . 1983 Apr; 46(1):250-9. PMID: 6402606
The capsid of bacteriophage SPO1 is icosahedral, and the subunit arrangement on the 87-nm-diameter head suggests the triangulation number T = 16. The major capsid protein (45,700 daltons) is cleaved...
19.
Bacteriophage SPO1 structure and morphogenesis. I. Tail structure and length regulation
Parker M, Eiserling F
J Virol . 1983 Apr; 46(1):239-49. PMID: 6402605
Bacteriophage SPO1, a structually complex phage with hydroxymethyl uracil replacing thymine, has been studied by structural and chemical methods with the aim of defining the virion organization. The contractile tail...
20.
Evidence for an internal component of the bacteriophage T4D tail core: a possible length-determining template
Duda R, Eiserling F
J Virol . 1982 Aug; 43(2):714-20. PMID: 7109039
The length of the T4 tail is precisely regulated in vivo at the time of polymerization of the tail core protein onto the baseplate. Since no mutations which alter tail...