Glyceraldehyde-3-phosphate dehydrogenase (GAPDH), localized in the cytosol of Trichomonas vaginalis, was partially purified. The enzyme is specific for NAD+ and is similar in most of its catalytic properties to glycolytic GAPDHs from other organisms. Its sensitivity to koningic acid is similar to levels observed in GAPDHs from eubacteria and two orders of magnitude lower than those observed for eukaryotic GAPDHs. The complete amino acid sequence of T. vaginalis GAPDH was derived from the N-terminal sequence of the purified protein and the deduced sequence of a cDNA clone. It showed great similarity to other eubacterial and eukaryotic GAPDH sequences. The sequence of the S-loop displayed a eubacterial signature. The overall sequence was more similar to eubacterial sequences than to cytosolic and glycosomal eukaryotic sequences. In phylogenetic trees obtained with distance matrix and parsimony methods T. vaginalis GAPDH clustered with its eubacterial homologs. GAPDHs of other amitochondriate protists, belonging to early branches of the eukaryotic lineage (Giardia lamblia and Entamoeba histolytica--Smith M.W. and Doolittle R.F., unpublished data in GenBank), showed typical eukaryotic signatures and clustered with other eukaryotic sequences, indicating that T. vaginalis GAPDH occupies an anomalous position, possibly due to horizontal gene transfer from a eubacterium.
Population dynamics of three different bacterial species, Serratia rubidaea (R), Serratia marcescens (F) and Escherichia coli (Ec), growing in single or mixed populations in liquid media, was monitored by real time headspace quantification of volatile compounds using selected ion flow tube mass spectrometry, SIFT-MS. The three bacterial species interact with each other in a competitive fashion in a way similar to the game "rock-paper-scissors" (R-Ec-F). The concentrations of volatile metabolites (ammonia, ethanol, acetaldehyde, propanol, acetoin, acetone and acetic acid) were measured in the headspace of the individual species and of their mixtures continuously for 24 hour periods. The results demonstrate that dynamics in bacterial cultures can be monitored using SIFT-MS in real time.
The bacterium Serratia marcescens produces a plethora of multicellular shapes of different colorations on solid substrates, allowing immediate visual detection of varieties. Such a plasticity allows studies on multicellular community scale spanning two extremes, from well-elaborated individual colonies to undifferentiated cell mass.For a single strain and medium, we obtained a range of different multicellular bodies, depending on the layout of initial plating. Four principal factors affecting the morphogenetic pathways of such bodies can be distinguished: (1) amount, density and distribution pattern of founder cells; (2) the configuration of surrounding free medium; (3) the presence and character of other bacterial bodies sharing the same niche; and (4) self-perception, resulting in delimitation towards other bodies. The last feature results in an ability of well-formed multicellular individuals to maintain their identity upon a close mutual contact, as well as in spontaneous separation of cell masses in experimental chimeras. We propose an "embryo-like" colony model where multicellular bacterial bodies develop along genuine ontogenetic pathways inherent to the given species (clone), while external shaping forces (like nutrient gradients, pH, etc.,) exert not formative, but only regulative roles in the process.
Masterpiece of epigenetic engineeringhow Toxoplasma gondii reprogrammes host brains to change fear to sexual attraction The protozoan parasite Toxoplasma gondii is known to induce specific behavioural changes in its intermediate hosts, including humans, that are believed to increase the chance of its successful transmission to the definitive host, the cat. The most conspicuous change is the socalled fatal attraction phenomenon, the switch from the mice's and rats' natural fear of the smell of cats toward an attraction to this smell. The mechanism of this manipulation activity is unknown; however, many indices suggest that changes in the concentrations of dopamine and testosterone are involved. In this issue of Molecular Ecology, Hari Dass & Vyas (2014) present results of a study showing that, by hypomethylation of certain regulatory elements of key gene, Toxoplasma is able to reprogramme the brain's genetic machinery in such a way that cat odour activates and changes the wiring of the medial amygdala circuits responsible for sexual behaviour. This study delivers the first clear evidence of a parasite's ability to use sophisticated epigenetic engineering techniques for the manipulation of the phenotype of its infected host.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.