Extrachromosomal deoxyribonucleic acid in wild-type and photosynthetically incompetent strains of Rhodopseudomonas spheroides.

Three covalently closed circular species of extrachromosomal deoxyribonucleic acid have been identified by electron microscopic analysis in strains of Rhodopseudomonas spheroides. The weights of these plasmids, as determined from contour length, are about 75 X 10(6), 66 X 10(6), and 28 X 10(6) daltons for both aerobically grown and photosynthetically grown R. spheroides strain 2.4.1 (NRS) and for the photosynthetically incompetent strain V-2 (obtained by N-methyl-N-nitro-N'nitrosoguanidine mutagenesis) and 74 X 10(6), 66 X 10(6) and 34 X 10(6) daltons for a second photosynthetically incompetent strain, SLS I (obtained by incubating strain 2.4.1 [NRS] in medium containing sodium lauryl sulfate). Buoyant densities uere found to be 1.717 g/cm3 (58% guanine plus cytosine) for the plasmids of 66 X 10(6), 28 X 10(6), and 34 X 10(6) daltons in weight and 1.724 g/cm3 (65% guanine plus cytosine) for those weighing about 75 X 10(6) daltons. Possible functions of these plasmids are discussed.     

Plasmidless, photosynthetically incompetent mutants of Rhodospirillum rubrum

Ethyl methanesulfonate rendered a high percentage of Rhodospirillum rubrum cells plasmidless and photosynthetically incompetent (Kuhl et al., J. Bacteriol. 156:737-742, 1983). By probing restriction endonuclease-digested chromosomal DNA from these plasmidless strains with 32P-labeled R. rubrum plasmid DNA, we showed that no homology exists between the plasmid and the chromosomal DNA of the mutant. Loss of the plasmid in all the nonphotosynthetic isolates was accompanied by the synthesis of spirilloxanthin under aerobic growth conditions, resistance to cycloserine and HgCl2, and loss of ability to grow fermentatively on fructose. Changes in both the protein and lipid composition of the membranes and the impaired uptake of 203HgCl2 in the plasmidless strains (compared with the wild type) suggest either that membrane modification occurs as a result of plasmid loss, accounting for several of the acquired phenotype characteristics of the cured strains, or that both membrane modification and plasmid loss are part of the same pleiotropic mutation.     

Reconstruction of incompetent oral commissures with dermal-muscle flaps from the lips: case report.

We present a case in which troublesome postoperative drooling at the commissures was corrected by a local muscle reconstruction and interdigitation to recreate the normal muscular forces at the angles. The possible application of this technique to other areas is suggested.     

Protein phosphorylation in meiotically competent and incompetent mouse oocytes

Specific changes in the two-dimensional gel electrophoretic pattern of mouse oocyte phosphoproteins precede germinal vesicle breakdown (GVBD). We report that changes in the relative abundance of phosphoamino acids occurred prior to GVBD. We also report data that further strengthen the close association of the changes in phosphoprotein patterns with resumption of meiosis. The calmodulin antagonist W7, which transiently inhibits GVBD, inhibited partially at least two of the maturation-associated phosphoprotein changes, the dephosphorylation of a 60,000 Mr phosphoprotein and the phosphorylation of a 36,000 Mr protein. In oocytes from juvenile mice that were incompetent to resume meiosis, neither these changes nor the phosphorylation of proteins of Mr 24,000 and 28,000 occurred; all these changes occurred, however, in oocytes from juvenile mice that were competent to resume meiosis. The microinjection of the heat-stable inhibitor of cyclic adenosine monophosphate (cAMP)-dependent protein kinase (PKI), which induces GVBD in fully grown oocytes, did not induce GVBD in meiotically incompetent oocytes. Microinjected PKI did not induce the increased protein phosphorylations associated with maturation, but it did induce the dephosphorylation of the 60,000 Mr phosphoprotein. These results provide molecular markers for commitment to resume meiosis in GV-intact oocytes and indicate a potential basis for meiotic incompetence.     

Degraded melanocores are incompetent to protect epidermal keratinocytes against UV damage

Melanosomes are membrane-bound intracellular organelles that are uniquely generated by melanocytes (MCs) in the basal layer of human epidermis. Highly pigmented mature melanosomes are transferred from MCs to keratinocytes (KCs), and then positioned in the supra-nuclear region to ensure protection against ultraviolet radiation (UVR). However, the molecular mechanism underlying melanosome (or melanin pigment) transfer remains enigmatic. Emerging evidence shows that exo-/endo-cytosis of the melanosome core (termed melanocore) has been considered as the main transfer manner between MCs and KCs. As KCs in the skin migrate up from the basal layer and undergo terminal differentiation, the melanocores they have taken up from MCs are subjected to degradation. In this study, we isolated individual melanocores from human MCs in culture and then induced their destruction/disruption using a physical approach. The results demonstrate that the ultrastructural integrity of melanocores is essential for their antioxidant and photoprotective properties. In addition, we also show that cathepsin V (CTSV), a lysosomal acid protease, is involved in melanocore degradation in calcium-induced differentiated KCs and is also suppressed in KCs following exposure to UVA or UVB radiation. Thus, our study demonstrates that change in the proportion of melanocores in the intact/undegraded state by CTSV-related degradation in KCs affects photoprotection of the skin.     

Cdc25C expression in meiotically competent and incompetent goat oocytes

Change in Cdc25C expression and localization during maturation and meiotic competence acquisition was investigated in goat oocytes. Western blot analysis revealed that Cdc25C is constitutively expressed throughout meiosis in competent goat oocytes, with changes in its phosphorylation level. Cdc25C was detected at 55 and 70 kDa, representing the nonphosphorylated form and the hyperphosphorylated active form, respectively. During the G2-M transition at meiosis resumption, Cdc25C was hyperphosphorylated as evidenced by a clear shift from 55 to 70 kDa. Okadaic acid which induced premature meiosis resumption associated with MPF activation also involved a premature shift from 55 to 70 kDa in goat competent oocytes. After artificial activation of goat oocytes, Cdc25C returned to its 55 kDa form. By indirect immunofluorescence, Cdc25C was found essentially localized in the nucleus at the germinal vesicle stage, suggesting that Cdc25C functions within the nucleus to regulate MPF activation. Concomitantly with germinal vesicle breakdown, Cdc25C was redistributed throughout the cytoplasm. The amount of Cdc25C, very low in incompetent oocytes, increased with meiosis competence acquisition. On the other hand, during oocyte growth while the expression of Cdc25C increased, its phosphorylation level increased concomitantly as well as its nuclear translocation. These results suggest that meiosis resumption needs a sufficient amount of Cdc25C which must be completely phosphorylated and nuclear and that the amount of Cdc25C may be a limiting factor for meiotic competence acquisition. We could consider that Cdc25C nuclear translocation and phosphorylation, during oocyte growth, prepare the oocytes in advance for the G2-M phase transition occurring during meiosis resumption.     

4-Phenylbutyrate rescues trafficking incompetent mutant alpha-galactosidase A without restoring its functionality

Fabry disease is a lysosomal storage disorder caused by deficiency of alpha-galactosidase A. Most mutant enzyme is catalytically active but due to misfolding retained in the endoplasmic reticulum. We have tested 4-phenylbutyrate for its potential to rescue various trafficking incompetent mutant alpha-galactosidase A. Although we found that the trafficking blockade for endoplasmic reticulum-retained mutant alpha-Gal A was released, neither a mature enzyme was detectable in transgenic mice fibroblasts nor a reversal of lysosomal Gb3 storage in fibroblasts from Fabry patients could be observed. Because of lack of functionality of rescued mutant alpha-galactosidase A, 4-phenylbutyrate seems to be of limited use as a chemical chaperone for Fabry disease.     

Induction of respiratory incompetent mutants by unsaturated fatty acid depletion in Saccharomyces cerevisiae

Constant levels of cellular unsaturated fatty acids were obtained by growing a fatty acid desaturase mutant of $\text{Saccharomyces cerevisiae}$ in glucose limited chemostat cultures supplemented with various concentrations of Tween 80. An increase in the frequency of cytoplasmic respiratory incompetent mutants was observed in cultures growing at low cellular levels of unsaturated fatty acids. This effect has been shown to result from an increase in the rate of mutation as the cellular unsaturated fatty acid level is decreased. The majority of induced petite mutants are ?° (contain no mitochondrial DNA).     

Meiotically incompetent and competent goat oocytes: timing of nuclear events and protein phosphorylation

The ability of mammalian oocytes to resume meiosis and to complete the first meiotic division is acquired sequentially during their growth phase. The acquisition of meiotic competence in goat oocytes has been previously correlated with follicular size (9). Since protein phosphorylation/dephosphorylation play a key role in oocyte maturation, it could be that in meiotically incompetent oocytes, such post-translational modifications are inadequate. The aim of this study was to analyze whether changes in oocyte proteins phosphorylation occurred during the acquisition of meiotic competence. For this propose, goat oocytes were divided into 4 classes according to follicular size and meiotic competence: Class A oocytes from follicles < 0.5 mm in diameter: Class B oocytes from follicles 0.5-0.8 mm; Class C oocytes from follicles 1-1.8 mm and class D oocytes from follicles > 3 mm. The protein phosphorylation patterns of these classes of oocytes were studied at different times of in vitro maturation. After 4h of culture, when all oocytes were in the germinal vesicle stage, only the oocytes from Class D displayed the phosphoproteins at 110 kD, 31 kD and around 63 kD. In contrast to Class D oocytes Classes B and C oocytes were partially competent to mature, they underwent germinal vesicle breakdown later than fully competent Class D oocytes and remained in early prometaphase I or in metaphase I, respectively. They exhibited the phosphoprotein changes that are associated with commitment to resume meiosis; but the changes occurred later than in Class D oocytes, which were fully competent to reach metaphase II. After 27 h of culture, the phosphorylation patterns of Class B, C and D oocytes were identical, whereas the meiotic stages reached were quite different. The phosphoprotein changes associated with oocyte maturation did not occur in meiotically incompetent Class A oocytes, which were blocked at the germinal vesicle stage. From these results it can be concluded that, at the GV stage, meiotically incompetent and competent goat oocytes display different patterns of protein phosphorylation. Once oocytes are able to resume meiosis they undergo specific phosphorylation changes, but whether these changes are markers or regulators of maturation events remains to be determined.     

The influence of incompetent lip seal on the growth and development of craniofacial complex

Abnormal orofacial functions in the period of growth and development can cause morphological anomalies of the craniofacial complex. The aim of this study was to determine the correlation between open mouth posture and morphology of craniofacial complex. The shape, size and relationships of skeletal parts of craniofacial complex were determined by analysis of lateral cephalograms in the sample of 84 children--45 girls and 39 boys (aged 8.96 +/- 0.66 years). The sample was divided into two groups--lip competence and lip incompetence group. Differences in cephalometric values between observed groups were found. The values of inclination of lower central incisors (angle ILi/NB), interbasal angle (NL/NSL), angle between occlusal and mandibular plane and anterior lower facial height were significantly higher in the group with open mouth posture. It can be concluded that lip incompetence plays an important role in growth and development of craniofacial complex.