Primary Source |
[66] Nanninga, Koppes & deVries-Tijssen, Arch-Microbiol., 123, 264 (1974) [67] Burdett ID, Higgins ML. Study of pole assembly in Bacillus subtilis by computer reconstruction of septal growth zones seen in central, longitudinal thin sections of cells. J Bacteriol. 1978 Feb 133(2):959-71 [68] Burdett ID, Kirkwood TB, Whalley JB. Growth kinetics of individual Bacillus subtilis cells and correlation with nucleoid extension. J Bacteriol. 1986 Jul167(1):219-30 [69] Hariharan IK, Czolij R, Wake RG. Conformation and segregation of nucleoids accompanying cell length extension after completion of a single round of DNA replication in germinated and outgrowing Bacillus subtilis spores. J Bacteriol. 1982 May150(2):861-9 [70] Ross KF, Billing E. The water and solid content of living bacterial spores and vegetative cells as indicated by refractive index measurements. J Gen Microbiol. 1957 Apr16(2):418-25 DOI: 10.1099/00221287-16-2-418 [71] Guillemin & Larson J. infec. Dis., 31, 349 (1922) [72] Tamir H, Gilvarg C. Density gradient centrifugation for the separation of sporulating forms of bacteria. J Biol Chem. 1966 Mar 10 241(5):1085-90PubMed ID415053, 3087953, 6802801, 13416519, 4956662
|
Comments |
P.180 right column 2nd paragraph: "From the data reported in the literature the average values for cell length and width were adapted as 2.6 and 0.65µm, respectively (primary sources 66-69). Cell surface area (S), cell volume (V), and dry weight (Wt) were calculated as 6.0×10^-8 cm^2, 9.0×10^-13cm^3, and 2.2×10^-13g, respectively. The cell dry weight was calculated based on a water content of 78% (primary sources 70 & 71) and a specific gravity (primary source 72) of 1.135." |