Sumana Banerjee

Mitotic arrest by Melatonin

Abstract We are testing the hypothesis that migration of the newly formed mouth (i.e., oral membranellar band) in stentor is homologous to mitotic chromosomal movement and that both types of movement within single cells depend directly on microtubule elongation. The following compounds synchronously delay the migration of the oral membranellar band as an exponential function of concentration: Colcemid, podophyllotoxin, β-peltatin and vinblastine. Delay for these compounds can be described by the equation, y = kx n , where y is delay in hours and x is concentration of mitotic spindle inhibitor in moles/l. We discovered that the animal pineal gland hormone, melatonin (5-methoxy n -acetyl tryptamine), also specifically and reproducibly delays oral band regeneration according to an equation of this form. Thus we predicted that melatonin would arrest mitosis. We report here a colchicine-type disruption of the mitotic apparatus in onion root tips by melatonin. Two closely related tryptamine derivatives, n -acetyl serotonin and serotonin were inactive in both the stentor and onion assays: they neither delayed band migration in stentor as an exponential function nor induced mitotic arrest in onion.

The Microbial Community in the Layered Sediments at Laguna Figueroa, Baja California, Mexico: Does it Have Precambrian Analogues?

Abstract In the hypersaline lagoon at Laguna Figueroa vertically stratified diverse communities of microorganisms thrive. The modern sediments of Baja California at Laguna Figueroa contain cyanobacterial communities and sedimentary structures produced by these blue greens that have already been studied by Horodyski and his colleagues. This paper provides an introduction to the complex microbial communities, primarily those that underlie the laminated Microcoleus mats. They are composed of anaerobic photosynthetic and heterotrophic bacteria. The following genera of cyanobacteria at least are components of these mat communities: Lyngbya, Microcoleus, Entophysalis, Phormidium, Pseudoanabaena, Anabaena and Schizothrix. Among the photosynthetic bacteria several species of Thiocapsa-like microbes formed major surface components of certain mats and scums; rhodospirilli, rhodopseudomonads, chromatis and others were seen. The following nonphotosynthetic bacteria were identified: Nocardia sp., three types of spirilli, two types of Spirochaeta sp., two types of Desulfovibria sp., a new strain of red Beneckea and four distinctive unidentified coccoid and filamentous bacteria. Reasons are given for believing several of the species are new to science and that the microbial diversity is far greater than the approximately twenty species reported here. Eukaryotes are extremely rare. Only one species of animal, a herpachtechoid copepod, was ever seen in the 8-km long microbial communities of the hypersaline basin. Dunaliella salina, a chlorophyte and Aspergillus sydowi, an ascomycetous fungus were the only eukaryotes that were observed to be regular components of mat communities. Ciliates, amoebae (including a chrysarchnion-like microbe) and diatom tests, mostly empty, were the only other eukaryotes observed. Attempts to enrich for eukaryotic microorganisms were not successful whereas attempts to enrich for bacteria, especially anaerobes led to such a profusion of forms that to continue detailed study of them was beyond our means. Unidentified small rods and cocci constituted the largest fraction of individuals in the subsurface community. The microbes isolated from mats are adapted for alternating dry and wet conditions as well as high concentrations of salt and low concentrations of oxygen.

Colchicine-Inhibited Cilia Regeneration: Explanation for Lack of Effect in Tris Buffer Medium

In Stentor coeruleus growth of new, daughter ciliates and experimentaly inducled regeneration of oral membranellar cilia are reversibly inhibited by low, nontoxic concentrations of colchicine. However, if the clulture medium containing colchicine (or Colcemid) is made up in tris(hydroxymethyl)aminomethane buffer, growth of ciliated daughters and regeneration of oral cilia proceed normally. The evidence suggests that the mechanism of this reversal of the effects of colchicine (or Colcemid) is due to a chemical reaction between tris(hydroxymethyl)-aminomethane (or its hydrochloride, or both) and colchicine (or Colcemid), wihich reduces the effective concentration of these mitotic spindle inhibitors reaching the stentors.