Effects of biotic and abiotic factors on the oxygen content of green sea turtle nests during embryogenesis.

Several biotic and abiotic factors can influence nest oxygen content during embryogenesis. Several of these factors were determined during each developmental stage of green sea turtle embryos on Wan-an Island, Penghu Archipelago, Taiwan. We examined oxygen content in 7 nests in 2007 and 11 in 2008. Oxygen in the adjacent sand, total and viable clutch sizes, air, sand and nest temperatures, and sand characters of each nest were also determined. Oxygen content was lower in late stages than in the early and middle stages. It was also lower in the middle layer than in the upper and bottom layers. Nest temperature showed opposite trends, reaching its maximum value in late stages of development. Nest oxygen content was influenced by fraction of viable eggs, total clutch sizes, sand temperatures, maximum nest temperature and maximum change in the nest temperature during incubation. Clutch size during embryogenesis was the most influential factor overall. However, the major influential factors were different for different developmental stages. In the first half of the incubation, the development rate was low, and the change in the nest oxygen content was influenced mainly by the clutch size. During the second half, the rapid embryonic development rate became the dominant factor, and hatchling activities caused even greater oxygen consumption during the last stage of development.

Capillary electropherograms for restriction fragment length polymorphism of Helicobacter pylori.

Rapid identification of Helicobacter pylori strains is of importance for diagnosis and then treatment of duodenal and gastric ulcers. We developed a CE approach for the analysis of RFLP of the PCR products of urease (UreAB) gene and flagellin A (FlaA) gene fragments. Prior to CE analysis, the 2.4-kbp UreAB and 1.5-kbp FlaA PCR products were digested with the restriction enzymes HaeIII and HhaI, respectively. The DNA fragments were then separated by CE in conjunction with laser-induced fluorescence detection using poly(ethylene oxide) in the presence of electroosmotic flow. The DNA fragments range in sizes 259-1831 bp and 12-827 bp for UreAB and FlaA restriction fragments, respectively. Of 27 samples, the CE approach provided five and ten different RFLP patterns of the HaeIII and HhaI digests. The RFLP of PCR products of the two genes allow great sensitivity of identification of H. pylori strains. When compared with slab gel electrophoresis, the present CE approach provides advantages of rapidity (within 6 min per run), simplicity, and automation. The preliminary results have shown great practicality of the CE approach for screening H. pylori strains.