Contractile Proteins of a Benthic Fish. III. Subunit Composition of Myosin

SYNOPSIS. Ultracentrifugal and electrophoretic experiments arereported on the subunit composition of myosin from skeletalmuscle of a benthic fish, Coryphaenoides species. Coryphaenoidesmyosin undergoes extensive association in concentrated KGI solutionsat neutral pH, but sedimentation equilibrium experiments indicatethe presence of a small fraction (3%) of monomeric myosin withmolecular weight approximately 440,000. At pH 11, some of theaggregated myosin is dissociated, and monomeric myosin is itselfdissociated into a heavy component (410,000 mol wt) and a lightcomponent (14,000 mol wt) that comprises 5–7% of the protein.The lialkali component of Coryphaenoides myosin yields a singlepredominant band on cellulose acetate electrophoresis and SDS-ureaelectrophoresis in 9% acrylamide gel. The stoichiometric evidenceindicates that Coryphaenoides myosin contains two heavy chains(205,000 mol wt) and two light chains (14,000 mol wt) that areequivalent with respect to net electrostatic charge and molecularweight. Preparations of myosin obtained by direct extractionfrom muscle mince and by dissociation of actomyosin extractedfrom muscle mince also contain 5% of a 47,000 mol wt componentpresumably actin), traces of 34–36,000 mol wt component,and about 5.7% of low molecular weight material (10,000–15,000)that probably represents contaminant protein, although the possibilityof denatured nivosin subunits cannot be excluded.     

Chemosensory Adaptation to Lysozyme and GTP Involves Independently Regulated Receptors in Tetrahymena thermophila

ABSTRACT. Chemosensory adaptation is seen in Tetrahymena thermophila following prolonged exposure (ten minutes) to micromolar concentrations of the chemorepellents lysozyme or guanosine triphosphate (GTP). Since these cells initially show repeated backward swimming episodes (avoidance reactions) in these repellents, behavioral adaptation is seen as a decrease in this repellent-induced behavior. The time course of this behavioral adaptation is paralleled by decreases in the extents of surface binding of either [³²P]GTP or [³H]lysozyme in vivo. Scatchard plot analyses of repellent binding in adapted cells suggests the behavioral adaptation is due to a dramatic decrease in the number of surface binding sites, as represented by decreased Bmax values. The estimated K_D values for nonadapted cells are 6.6 μM and 8.4 μM for lysozyme and GTP binding, respectively. Behavioral adaptation and decreased surface receptor binding are specific for each repellent. The GTP adapted cells (20 μM for ten minutes) still respond behaviorally to 50 μM lysozyme and bind [³H]lysozyme normally. Lysozyme adapted cells (50 μM for ten minutes) still bind [³²P]GTP and respond behaviorally to GTP. All the behavioral and binding changes seen are also reversible (deadaptation). Neomycin was shown to be a competitive inhibitor of [³H]lysozyme binding and lysozyme-induced avoidance reactions, but it had no effect on either [³²P]GTP binding or GTP-induced or avoidance reactions. These results are consistent with the hypothesis that there are two separate repellent receptors, one for GTP and the other for lysozyme, that are independently downregulated during adaptation to cause specific receptor desensitization and consequent behavioral adaptation.     

Interaction of Cortisoi and Thyroid Hormone in the Larval Development of Pacific Threadfin

We have conducted three hatchery-scale experiments designedto examine the actions and interactions of cortisoi and thyroidhormones in the development of a larval marine fish. Survivalamong controls varied significantly between the 3 replicateexperiments. The threadfin (Polydactylus sexfilis) consistentlyresponds to 1 hr posthatch immersion in a combination of triiodothyronineand cortisoi (T₃ + F) with accelerated gut development and increasedsurvival compared with untreated controls (C). Survival amonglarvae treated with T₃ or F separately was significantly improvedover controls in one of the three experiments. The frequencyof spinal deformities was reduced by cortisoi treatment, aloneor in combination with T₃. Growth did not vary with treatment,except that variance in larval length was reduced in (T₃ + F)vs. C in all 3 experiments. A hormoneinduced increase in uniformitycould lead to reduced cannibalism, which is a problem in theculture of threadnns. These results suggest interactive hormonalregulation of developmental processes, working within the contextof other biological variables     

Structure and diversity of the Mesozoic wood genus Xenoxylon in Far East Asia: implications for terrestrial palaeoclimates

Although the faunal elements of Far East Asian Mesozoic terrestrial biota have attracted much attention in recent years, their palaeoecology remains poorly known. In particular, features of the palaeoclimate are highly controversial. To address this point we used the Mesozoic fossil wood Xenoxylon , a genus recognized as an indicator of wet temperate biotopes and which is common in the area during the Carnian–Maastrichtian interval. We re-appraised bibliographic data and gathered new data for Xenoxylon in the Mesozoic of Far East Asia. This demonstrated that previous taxonomic approaches to the genus have been so far idiosyncratic. We examined the anatomical diversity of morphogenus Xenoxylon in Far East Asia and compared it to that of samples from Europe. This indicates that in an area centred on north-eastern China, Xenoxylon reached a level of anatomical diversity unmatched elsewhere in the world. We hypothesize that this diversity witnesses the persistence of palaeoecological conditions particularly suitable for Xenoxylon and that a wet temperate climate prevailed over most of the area throughout the Carnian–Maastrichtian interval. It is in this setting that the famous Jehol Biota probably evolved.     

Contribution to the Tribes Diaperini Doyen in Korea (Coleoptera: Tenebrionidae: Diaperinae)

A taxonomic review of six genera of Korean Diaperini is presented. Seven species in Korea are described here. We provide a key to the Korean species and genera, diagnoses and photos for them.     

Local adaptation of developmental time and starvation resistance in eight Drosophila species of the Philippines

The ecological trade-off between developmental time and starvation resistance, acting in a heterogeneous environment, can promote the coexistence of competing species. Heterogeneity results from variation in the vegetation that influences both abiotic (e.g. temperature, humidity) and biotic (e.g. fruit availability during the year) aspects of the environment. In this study, we investigated whether differences between collection sites have led to local differentiation of the two life-history traits underlying the coexistence model: developmental time and starvation resistance. Drosophila were collected from four collection sites, ranging from grassland to secondary forest, along a transect of 15 km. The microclimatic and vegetation differences among these collection sites were considerable. For developmental time, different species showed similar genetic responses to the (habitat) differences between the different collection sites. The shortest developmental times were found in the secondary forest populations and the agricultural area populations, the longest in the grassland populations, and the forest edge populations were intermediate. However, there was no correlation between the habitat ranking based on disturbance and canopy cover, and the ranking of the developmental times. Furthermore, the data did not confirm the generality of the positive correlation between developmental time and starvation underlying the coexistence model.  © 2006 The Linnean Society of London, Biological Journal of the Linnean Society, 2006, 87 , 115–125.