Tissue specific expression of the splice variants of the mouse vacuolar proton-translocating ATPase a4 subunit

We have identified splicing variants of the mouse a4 subunit which have the same open reading frame but have a different 5′-noncoding sequence. Further determination of the 5′-upstream region of the a4 gene in mouse indicated the presence of two first exons (exon 1a and exon 1b) which include the 5′-noncoding sequence of each variant. The mRNAs of both splicing variants (a4-I and a4-II) show a similar expression pattern in mouse kidney by in situ hybridization. However, tissue and developmental expression patterns of the variants are different. In addition to strong expression in kidney, a4-I expression was detected in heart, lung, skeletal muscle, and testis, whereas a4-II is expressed in lung, liver, and testis. During development, a4-I was expressed beginning with the early embryonic stage, but a4-II mRNA was detected from day17. These results suggest that each a4 variant has both a tissue and developmental stage specific function.     

Genetics of the relationship between the ciliate Paramecium bursaria and its symbiotic algae

Abstract. Paramecium bursaria , a freshwater protozoan, typically harbors hundreds of symbiotic algae ( Chlorella sp.) in its cytoplasm. The relationship between host paramecia and symbiotic algae is stable and mutually beneficial in natural environments. We recently collected an aposymbiotic strain of P. bursaria . Infection experiments revealed that the natural aposymbiotic strain (Ysa2) showed unstable symbiosis with Chlorella sp. The algae aggregated at the posterior region of the host, resulting in aposymbiotic cell production after cell division. Cross-breeding analyses were performed to determine the heritability of the aposymbiotic condition. In crosses of Ysa2 with symbiotic strains of P. bursaria , F1 progeny were able to form stable symbioses with Chlorella sp. However, unstable symbiosis, resembling Ysa2 infection, occurred in some F2 progeny of sibling crosses between symbiotic F1 clones. Infection experiments using aposymbiotic F2 cells showed that these F2 subclones have limited ability to reestablish the symbiosis. These results indicate that the maintenance of stable symbiosis is genetically controlled and heritable, and that Ysa2 is a mutant lacking the mechanisms to establish stable symbiosis with Chlorella sp.     

Lentiviral vector-mediated gene transfer to endotherial cells compared with adenoviral and retroviral vectors

Human immunodeficiency virus (HIV, lentivirus) vector has attractive features for gene therapy, including the ability to transduce non-dividing cells and long-term transgene expression. We have already reported that lentivirus vector can transduce well-differentiated rat cardiac myocytes. Endothelial cells (EC) are an attractive target for gene therapy, both for the treatment of cardiovascular disease and for the systemic delivery of recombinant gene products directly into the circulation. There are several reports regarding application of adenovirus and retrovirus based vectors to EC. However, there have been few reports which show the effect to lentivirus-mediated gene transfer efficiency, compared with adenovirus and retrovirus. In this study, bovine aortic endothelial cells (BAECs) were infected, in vitro, with these virus vectors. Transduction efficiency (TE) of beta-Gal gene transfer in BAECs by adenovirus, lentivirus, or retrovirus at MOI10 (Multiplicity of infection) (determined on Hela cells) is 69+/-11, 33+/-8, or 22+/-6% respectively. In adenovirus and lentivirus, almost 100% of BAECs were transduced at MOI 50. However, in retrovirus, TE showed only 48+/-6% at MOI 50 and no increase at MOI 100. The percentage of beta-Gal positive cells was decreased rapidly at longer passage of cells after being transduced by adenovirus. However, lentivirus and retrovirus showed sustained higher percentage of positive cells. Furthermore, transduction by lentiviral vectors had no significant effect on viability of BAECs. Our results indicate that lentivirus showed high-level and long term gene expression in BAECs. Lentivirus can be an effective vector for the ex vivo, genetically modified EC implantation and in vivo gene therapy.     

Feeding rates and absorption efficiencies of four species of sea urchins (genus Echinometra) fed a prepared diet

Four closely related species of sea urchins belonging to the genus Echinometra, Echinometra sp. A (Ea), E. mathaei (Em), E. sp. C (Ec), and E. oblonga (Eo), occur sympatrically but in different microhabitats on Okinawan coral reefs. Feeding rates and absorption efficiencies of the four species were investigated in the laboratory by feeding sea urchins ad libitum a diet prepared from turf algae and agar over a 7-day period. Feeding rates differed significantly among the four species of Echinometra (Ea > Em approximately = Ec > Eo). Absorption efficiencies of protein and lipid did not differ significantly among the four species. Carbohydrate, a major nutrient component in the diet, was absorbed by the four species at significantly different efficiencies (Eo > Ec approximately = Em > Ea), which resulted in similar interspecific differences in absorption efficiencies of dry matter, total organic matter, and energy. The amount of nutrients absorbed from the diet was directly related to the feeding rate, indicating that the increase in absorption efficiency was not sufficient to completely compensate for low feeding rate. The interspecific difference in physiological performance in relation to feeding and absorption is consistent with taxonomic differentiation among the four species.     

Mutations in the Gene Encoding the E2 Conjugating Enzyme UBE2T Cause Fanconi Anemia

Fanconi anemia (FA) is a rare genetic disorder characterized by genome instability, increased cancer susceptibility, progressive bone marrow failure (BMF), and various developmental abnormalities resulting from the defective FA pathway. FA is caused by mutations in genes that mediate repair processes of interstrand crosslinks and/or DNA adducts generated by endogenous aldehydes. The UBE2T E2 ubiquitin conjugating enzyme acts in FANCD2/FANCI monoubiquitination, a critical event in the pathway. Here we identified two unrelated FA-affected individuals, each harboring biallelic mutations in UBE2T. They both produced a defective UBE2T protein with the same missense alteration (p.Gln2Glu) that abolished FANCD2 monoubiquitination and interaction with FANCL. We suggest this FA complementation group be named FA-T.     

Selection of rub trees by brown bears (Ursus arctos) in Hokkaido, Japan

Tree rubbing by brown bears (Ursus arctos) is a well-known behavior throughout the animal’s distribution. There is still insufficient information on the characteristics and function of the behavior. We investigated seasonal frequency of tree rubbing by brown bears, characteristics and reasons for selection of rub trees, and characteristics of bear signs on and around rub trees in a mixed coniferous–broad-leaved deciduous forest in Hokkaido, Japan. Between 1998 and 2009, we found 172 rub trees and confirmed 995 tree rubbings. We found that the rub trees were used repeatedly by bears within a year and for multiple years (more than 10 years). Tree rubbing by brown bears was observed from April to November, with a peak between May and June that corresponds to the mating season of brown bears. Abies sachalinensis was selected and broad-leaved trees were avoided for tree rubbing based on estimated availability in natural forest. The preference for Abies sachalinensis might be because the strong odor of resin attracts bears for rubbing their head and neck in resinous substances and for increasing the detectability of their markings by receptor bears. Selected trees for rubbing were located right beside the trail on relatively level ground among trees along roads or trails. Trees had a relatively large diameter at breast height. These characteristics would also serve to increase the access and detectability of their markings. Series of pad-shaped depressions was the most frequently observed (70 %) indication of bear rubbing, followed by debarking (51 %) and clawing (30 %). In terms of visual and olfactory signal amplification, physical damage by bears to the trees might have a function to enhance the smell as a result of increase in outflow of the resin. We conclude that tree rubbing behavior is associated with the mating season of brown bears and that the main purpose of this behavior is scent marking to communicate intraspecifically during the mating season.