The Relation of Sphere-rod Morphogenesis to the Growth Cycle and Cell Wall Structure of Arthrobacter Crystallopoietes |
Contents
MORPHOGENESIS AND THE GROWTH CYCLE | 13 |
MORPHOGENESIS AND CELL WALL STRUCTURE | 28 |
GENERAL DISCUSSION | 91 |
1 other sections not shown
Common terms and phrases
active added addition alanine amino acids amounts Analyses appears Arthrobacter aureus average bacteria balanced growth bridges buffer carbohydrate cellular chain lengths Chalaropsis B enzyme changes circles Closed circles coccoid columns complexes containing cross-bridges cross-linked crystallopoietes cell walls cultures D-alanine described determined dimer division effect eluted end groups extracted Figure followed fractions genus glucose glutamic acid glycine glycopeptide groups growing growth cycle growth rate GS medium hexosamines increase incubated indicate induced inoculation involve L-Ala L-Lys lysine lysozyme measured method minutes mixed mixture monomer morphogenesis muramic acid N-terminal numbers occur Open circles OPTICAL DENSITY organism peak penicillin peptides peptone Peptone-rod period phase phosphate polymer polysaccharide possible potassium succinate Preparation presented produced ratio reagent reducing power Release residues rods room temperature samples shift shown solutions species sphere cell walls sphere-rod studies suggested synthesis Table teichoic acid tubes volume whole