Early embryonic development and diapause stage in the band-legged ground cricket Dianemobius nigrofasciatus

The band-legged ground cricket Dianemobius nigrofasciatus enters diapause at an early embryonic stage when adults are reared under short-day conditions or the eggs are exposed to a low temperature. We examined the morphological features of the embryo during early development and determined the exact stage of entry into diapause. In non-diapause eggs, no periplasmic space was observed in the surface region and a small number of nuclei surrounded by cytoplasm (energids) were found among the yolk granules and lipid droplets 12 h after egg laying (AEL) at 25°C. The energids sparsely but evenly populated the surface region at 40 h AEL, but there were some gaps between these energids. A continuous thin layer of nuclei with cytoplasm had completely covered the egg surface at 56 h AEL, suggesting that the blastoderm is formed between 40 and 56 h AEL. At 72 h AEL, we found a germ band at the posterior pole. Electron microscopy revealed clear cell membranes at 40 h AEL. Staining with rhodamine-dextran dye demonstrated that the cell membrane is formed when the nuclei appear on the egg surface at 12–24 h AEL. These results indicate that cellularization occurs before blastoderm formation. In diapause eggs, neither the embryonic rudiment nor germ band was formed, but a continuous layer of cells covered the egg surface. It is concluded that D. nigrofasciatus enters diapause at the cellular blastoderm.     

A novel action of collapsin: Collapsin-1 increases antero- and retrograde axoplasmic transport independently of growth cone collapse

Chick collapsin-1, a member of the semaphorin family, has been implicated in axonal pathfinding as a repulsive guidance cue. Collapsin-1 induces growth cone collapse via a pathway which may include CRMP-62 and heterotrimeric G proteins. CRMP-62 protein is related to UNC-33, a nematode neuronal protein required for appropriately directed axonal extension. Mutations in unc-33 affect neural microtubules, the basic cytoskeletal elements for axoplasmic transport. Using computer-assisted video-enhanced differential interference contrast microscopy, we now demonstrate that collapsin-1 potently promotes axoplasmic transport. Collapsin-1 doubles the number of antero- and retrograde-transported organelles but not their velocity. Collapsin-1 decreases the number of stationary organelles, suggesting that the fraction of time during which a particle is moving is increased. Collapsin-1-stimulated transport occurs by a mechanism distinct from that causing growth cone collapse. Pertussis toxin (PTX) but not its B oligomer blocks collapsin-induced growth cone collapse. The holotoxin does not affect collapsin-stimulated axoplasmic transport. Mastoparan and a myelin protein NI-35 induce PTX-sensitive growth cone collapse but do not stimulate axoplasmic transport. These results provide evidence that collapsin has a unique property to activate axonal vesicular transport systems. There are at least two distinct pathways through which collapsin exerts its actions in developing neurons. © 1997 John Wiley & Sons, Inc. J Neurobiol 33: 316–328, 1997     

Detection of Polypeptides Involved in Early Stages of Nodulation in Soybean Roots

Soluble proteins extracted from the roots of nodulating soybean[Glycine max (L.) Merr. cv. T202] and from roots of the non-nodulatingisoline rj₁ of cv. T202 (cv. T201), which had been inoculatedwith Bradyrhizobium japonicum, were analyzed by two-dimensionalpolyacrylamide gel electrophoresis and silver staining, in anattempt to identify polypeptides involved in early stages ofnodulation. Almost identical patterns of polypeptides were generatedby extracts of 3-day-old roots of uninoculated T201 and T202and of inoculated T201 and T202, but a unique spot, correspondingto a polypeptide of 38 kDa was detected in the case of inoculatedroots of T202. Western blotting analysis using "inoculated-T202-rootspecific" antiserum, prepared by titration of antiserum againstproteins from inoculated T202 roots with proteins from inoculatedT201 roots, revealed spots corresponding to polypeptides of26,27, and 33 kDa that were detectable only in the extractsof roots of inoculated T202. However, no unique polypeptidespots were detected in the case of roots of inoculated T201and T202, as compared with those from uninoculated T201 andT202 roots by Western blotting analysis using "inoculated-T201-rootspecific" antiserum prepared by titration of antiserum againstproteins from inoculated T201 roots with proteins from uninoculatedT201 roots. (Received May 27, 1991; Accepted September 30, 1991)     

The relationship between female rank and reproductive parameters of the ringtailed lemur: a preliminary analysis

We used data from a 13-year field study of wild ringtailed lemurs to analyze the relationship between female rank and reproductive parameters. In medium and small groups there were no significant differences in birth rate, infant mortality rate, and the number of surviving infants between the female rank categories. On the other hand, in large sized groups low-ranked females had a smaller number of surviving infants than middle-ranked females. This suggests that in large sized groups, within-group competition lowered the values of reproductive parameters of low-ranked females. On the other hand, high and low-ranked females of small sized groups tended to have a smaller number of surviving infants than high-ranked females of medium sized groups and middle-ranked females of large sized groups. Between-group competition should lower the values of their reproductive parameters. In sum, these results fit the expectation from Wrangham’s (1980) inter group feeding competition model.     

Structures of dimeric nonstandard nucleotide triphosphate pyrophosphatase from Pyrococcus horikoshii OT3: functional significance of interprotomer conformational changes

Nonstandard nucleotide triphosphate pyrophosphatase (NTPase) can efficiently hydrolyze nonstandard purine nucleotides in the presence of divalent cations. The crystal structures of the NTPase from Pyrococcus horikoshii OT3 (PhNTPase) have been determined in two unliganded forms and in three liganded forms with inosine 5′-monophosphate (IMP), ITP and Mn²⁺, which visualize the recognition of these ligands unambiguously. The overall structure of PhNTPase is similar to that of previously reported crystal structures of the NTPase from Methanococcus jannaschii and the human ITPase. They share a similar protomer folding with two domains and a similar homodimeric quaternary structure. The dimeric interface of NTPase is well conserved, and the dimeric state might be important to constitute the active site of this enzyme. A conformational analysis of the five snapshots of PhNTPase structures using the multiple superposition method reveals that IMP, ITP and Mn²⁺ bind to the active site without inducing large local conformational changes, indicating that a combination of interdomain and interprotomer rigid-body shifts mainly describes the conformational change of PhNTPase. The interdomain and interprotomer conformations of the ITP liganded form are essentially the same as those observed in the unliganded form 1, indicating that ITP binding to PhNTPase in solution may follow the selection mode in which ITP binds to the subunit that happens to be in the conformation observed in the unliganded form 1. In contrast to the human ITPase inducing a large domain closure upon ITP binding, the interdomain active site cleft is generally closed in PhNTPase and only the IMP binding form shows a remarkable domain opening by 14° only in the B subunit. The interprotomer rigid-body rotation of PhNTPase has a tendency to keep the dimeric 2-fold symmetry, which is also true in human ITPase, thereby suggesting its relevance to the positive cooperativity of the dimeric NTPases. The exception of this rule is observed in the IMP liganded form in which the dimeric 2-fold symmetry is broken by a 3° interprotomer rotation in an unusual direction. A combination of the exceptional interdomain and interprotomer relocations is most likely the reason for the observed asymmetric IMP binding that might be necessary for PhNTPase to release the reaction product IMP.     

Heme Orientation of Cavity Mutant Hemoglobins (His F8 → Gly) in Either α or β Subunits: Circular Dichroism, 1H NMR,and Resonance Raman Studies

Native human adult hemoglobin (Hb A) has mostly normal orientation of heme, whereas recombinant Hb A (rHb A) expressed in E. coli contains both normal and reversed orientations of heme. Hb A with the normal heme exhibits positive circular dichroism (CD) bands at both the Soret and 260‐nm regions, while rHb A with the reversed heme shows a negative Soret and decreased 260‐nm CD bands. In order to examine involvement of the proximal histidine (His F8) of either α or β subunits in determining the heme orientation, we prepared two cavity mutant Hbs, rHb(αH87G) and rHb(βH92G), with substitution of glycine for His F8 in the presence of imidazole. CD spectra of both cavity mutant Hbs did not show a negative Soret band, but instead exhibited positive bands with strong intensity at the both Soret and 260‐nm regions, suggesting that the reversed heme scarcely exists in the cavity mutant Hbs. We confirmed by ¹H NMR and resonance Raman (RR) spectroscopies that the cavity mutant Hbs have mainly the normal heme orientation in both the mutated and native subunits. These results indicate that the heme Fe‐His F8 linkage in both α and β subunits influences the heme orientation, and that the heme orientation of one type of subunit is related to the heme orientation of the complementary subunits to be the same. The present study showed that CD and RR spectroscopies also provided powerful tools for the examination of the heme rotational disorder of Hb A, in addition to the usual ¹H NMR technique. Chirality 28:585–592, 2016. © 2016 Wiley Periodicals, Inc.