Nuclear envelope dynamics during male pronuclear development

Upon fertilization, the sperm nucleus undergoes reactivation. The poreless sperm nuclear envelope is replaced by a functional male pronuclear envelope and the highly compact male chromatin decondenses. Here some recent evidence is examined: that disassembly of the sperm lamina is required for chromatin decondensation, that remnant portions of the sperm nuclear envelope target the binding of egg membrane vesicles that form the male pronuclear envelope, that functional male pronuclear envelopes containing lamin B receptor assemble prior to lamin import and lamina formation, and that lamina assembly drives male pronuclear swelling. Several unresolved issues are discussed.     

Identification of the phosphoglycerate dehydrogenase isoform EDA9 as the essential gene for embryo and male gametophyte development in Arabidopsis

Three different pathways of serine (Ser) biosynthesis have been described in plants: the Glycolate pathway, which is part of the Photorespiratory pathway, and 2 non-Photorespiratory pathways, the Glycerate and the Phosphorylated pathways. The Phosphorylated Pathway of Ser Biosynthesis (PPSB) has been known to exist since the 1950s, but its biological relevance was not revealed until quite recently when the last enzyme of the pathway, the Phosphoserine Phosphatase, was functionally characterized. In the associated study¹, we characterized a family of genes coding for putatite phosphoglycerate dehydrogenases (PGDH, 3-PGDH, and EDA9), the first enzyme of the PPSB. A metabolomics study using overexpressing plants indicated that all PGDH family genes were able to regulate Ser homeostasis but only lacking of EDA9 expression caused drastic developmental defects. We provided genetic and molecular evidence for the essential role of EDA9 for embryo and pollen development. Here, some new insights into the physiological/molecular function of PPSB and Ser are presented and discussed.     

Activation of Ca2+channels during the acrosome reaction of sea urchin sperm is inhibited by inhibitors of chymotrypsin-like proteases

Probable participation of sperm protease in the acrosome reaction was investigated using several inhibitors and substrates. Among those examined, L-l-tosylamide-2-phenylethyl chloromethyl ketone (TPCK) and chymostatin, chymotrypsin inhibitors, p-nitrophenyl-p′-guanidinobenzoate (NPGB), a serine protease inhibitor, and N-benzoyl-L-tyrosine ethyl ester (BTEE), a chymotrypsin substrate, inhibited the egg jelly-induced acrosome reaction of Strongylocentrotus intermedius. TPCK and BTEE, however, did not inhibit the reaction caused by ionophores, A23187, or nigericin. To know the mechanism of inhibition by chymotrypsin inhibitors and substrates of the egg jelly-induced acrosome reaction, intraccllular Ca²⁺ concentration ([Ca²⁺]_i) and pH (pH_i) were measured with fura-2 and 2′,7′-bis (carboxy-ethyl)carboxyfluorescein (BCECF), respectively. Egg jelly caused increase of [Ca²⁺]_i which was depressed by BTEE. Egg jelly also caused a transient rise of pH_i, which was not depressed by BTEE. In the presence of verapamil, the acrosome reaction by egg jelly was significantly inhibited concomitant with depressed increase of [Ca²⁺]_i. The rise of pHj was not depressed by verapamil. Thus, modes of action of BTEE and of verapamil are similar to each other. Bringing these findings together, the authors present a view that a chymotrypsin-like protease of sea urchin sperm activates verapamil-sensitive Ca²⁺ channels, which take part in the acrosome reaction.     

A Tris-induced change in the midpoint potential of Z,the donor to photosystem II,as determined by the kinetics of the back reaction

A new method of measuring the rate of the back reaction from the state Z⁺ P680 Q_A^? in Tris-washed chloroplasts is described. By using ratios of back reaction rates we demonstrate a Tris-induced change in the equilibrium between Z and P680 and attribute this change to an alteration of the midpoint potential of Z by Tris treatment. We also demonstrate that the previously observed inhibition of the back reaction by ADRY reagents can be localized at Z and understood in terms of electron donation to Z⁺ by ADRY reagents.     

Variation in coding exons of two electrophoretic alleles at the pigtail macaque carbonic anhydrase I locus as determined by direct,double-stranded sequencing of polymerase chain reaction (PCR) products

Two, electrophoretically distinct, forms of carbonic anhydrase I (CA Ia and CA Ib) are found at high polymorphic frequencies in red cells of natural populations of pigtail macaques,Macaca nemestrina, from southeast Asia. By use of the polymerase chain reaction, exons of the CA I gene were amplified from homozygous (a/a, b/b) and heterozygous (a/b) animals. Direct sequencing of the amplified DNA from four animals revealed differences between the a and the b electrophoretic alleles ranging from three to six nucleotides, and from one to three differences within each allele. These results indicate a greater genetic variability at the CA I locus in this macaque species than previously realized. We thank the personnel of the University of Washington, Regional Primate Research Center, Seattle, for sending us blood and tissue samples from pigtail macaques (supported by NIH Grant RR 00166). Our work was supported by NIH Grant GM 24681.     

The first proof of a possibility of change of temperature norms of insect development as a result of artificial selection for fast or slow development by the example of the red soldier bug <Emphasis Type="Italic">Pyrrhocoris apterus</Emphasis> (Heteroptera,Pyrrhocoridae)

For 3–4 generations, selection of the nymphs most rapidly and slowly developing at 28°C was performed in four families of the red soldier bug Pyrrhocoris apterus L. In each generation, duration of development of nymphs was determined at 5 constant temperatures from 20°C to 28°C. From these data the linear regression coefficient of the development rate against temperature (the development thermolability coefficient) for each generation was calculated. As a result of the selection the average duration of the nymph development was shortened or increased statistically significantly depending on its direction. The artificial selection for the development duration has been established to change not only this parameter, but also the temperature norms of the insect development. At selection for fast development the regression straight line slope (i.e., the regression coefficient value) increased statistically significantly, i.e., development became more dependent on temperature. As a rule, the temperature threshold of development increased. At selection for slow development the values of the regression coefficient and of the threshold decreased, but these differences were not statistically significant. The effect of artificial selection for the development duration on temperature norms of insect development has been revealed for the first time.     

A role for the miR396/GRF network in specification of organ type during flower development,as supported by ectopic expression of Populus trichocarpa miR396c in transgenic tobacco

The MIR396 family, composed of ath‐miR396a and ath‐miR396b in Arabidopsis, is conserved among plant species and is known to target the Growth‐Regulating Factor (GRF) gene family. ath‐miR396 overexpressors or grf mutants are characterised by small and narrow leaves and show embryogenic defects such as cotyledon fusion. Heterologous expression of ath‐miR396a has been reported in tobacco and resulted in reduction of the expression of three NtGRF genes. In this study, the precursor of the Populus trichocarpa ptc‐miR396c, with a mature sequence identical to ath‐miR396b, was expressed under control of the CaMV35S promoter in tobacco. Typical phenotypes of GRF down‐regulation were observed, including cotyledon fusion and lack of shoot apical meristem (SAM). At later stage of growth, transgenic plants had delayed development and altered specification of organ type during flower development. The third and fourth whorls of floral organs were modified into stigmatoid anthers and fasciated carpels, respectively. Several NtGRF genes containing a miR396 binding site were found to be down‐regulated, and the cleavage of their corresponding mRNA at the miR396 binding site was confirmed for two of them using RACE‐PCR analysis. The data obtained agree with the functional conservation of the miR396 family in plants and suggest a role for the miR396/GRF network in determination of floral organ specification.