Neurophysiological Genetics in Drosophila melanogaster

Neurophysiological genetics is the study of the mechanisms bywhich genes control nervous function and behavior. The transductionof genetic information into neural information is studied atthe level of the neuron through genetic and physiological techniques. The neurons responsible for the leg-shaking action specificto a single-gene mutant of Drosophila melanogaster, Hk¹, havebeen located in three pairs of small regions in the thoracicganglion. The activity pattern of these neurons is coded bythe mutant Hk¹ gene. The center for the specifically patternedleg-shaking action is composed of several motor neurons whoseactivity is governed by the pacemaking activity of at leastone interneuron. As it is most likely that the mutant gene isexpressed autonomously in this interneuron, there is a possibilityof investigating ways in which genes may influence the propertiesof neurons. The activity of the mutant neuron was monitoredintracellularly, and the pattern formation mechanism was studied.The amplitude, duration, and periodicity of the pacemaker potentialand the spike initiation site determine the activity patternresulting in the specific leg-shaking action.     

高钙摄取对易卒中自发性高血压大鼠的血压和细胞内pH，Na~＋－H~＋交换活性的

本文观察到易卒中自发性高血压大鼠接受高钙（３％）饮食６周后抑制了血压上升，胞浆游离钙浓度降低和血浆钙升高，细胞内ｐＨ也产生改变，接近正常对照的ＷＫＹ大鼠。本文对细胞内ｐＨ，Ｎａ＋－Ｈ＋交换，胞浆游离钙浓度与血压的关系进行了讨论。     

Morphological Characterization of First Instar Larvae of Asian Horseshoe Crabs and their Hybrids*

The morphological characters of first instar larvae of three Asian horseshoe crabs and their hybrids were examined. For this purpose, the length of six parts on the larvae, the pattern of pigmentation, the structure of the margin of the opisthosoma, and the distribution and shape of spines on the extracardiac region of the prosoma were recorded. In general, the phenotypes of the hybrids were intermediate between those of the parents, suggesting that both male and female genomes contribute to development of the hybrids. However, there were some exceptional characters and phenotypic variations. Some characters were inherited from only one parent. This was suggested to imply that if the maternal species did not have the gene regulating expression of a given paternal character, the paternal gene did not express this character.     

NEURAL COMPETENCE AND CELL LINEAGE OF GASTRULA ECTODERM OF NEWT EMBRYO

The change in the capacity to form neural structures was quantitatively analyzed in both intact and isolated ectoderms of Cynops pyrrhogaster gastrula. The frequency of explants with induced neural structures abruptly decreases between stage 12c and stage 13b in intact ectoderm, and between 12 hr and 18 hr preculture in isolated ectoderm. The quantitative analysis also made clear that the size of the cell population of induced neural structures was gradually reduced with the aging of the ectoderm. The authors simultaneously examined the cell proliferation of early gastrula ectoderm and confirmed that all ectodermal cells divided at least once within 18 hr at 23°C, after which the neural competence of the ectoderm completely disappeared.
The relationships between neural competence and cell lineage (cell generation) of the ectoderm are discussed in the light of these findings.