The surgical treatment of necrobiosis lipoidica diabeticorum.

We review the literature on the surgical treatment of necrobiosis lipoidica diabeticorum, and we describe 7 cases treated at Stanford University Medical Center. Experiences with them prompt us to recommend surgical excision of the lesions down to the deep fascia, ligation of the associated perforating blood vessels, and the use of split-skin grafts to cover the defects. There were no recurrences when we did all these things.     

Identification of a second trans-acting gene controlling maltose fermentation in Saccharomyces carlsbergensis.

Maltose fermentation in Saccharomyces spp. requires the presence of a dominant MAL locus. The MAL6 locus has been cloned and shown to encode the structural genes for maltose permease (MAL61), maltase (MAL62), and a positively acting regulatory gene (MAL63). Induction of the MAL61 and MAL62 gene products requires the presence of maltose and the MAL63 gene. Mutations within the MAL63 gene produce nonfermenting strains unable to induce the two structural gene products. Reversion of these mal63 nonfermenters to maltose fermenters nearly always leads to the constitutive expression of maltase and maltose permease, and constitutivity is always linked to MAL6. We demonstrated that for one such revertant, strain C2, constitutivity did not require the MAL63 gene, since deletion disruption of this gene did not affect the constitutive expression of the structural genes. In addition, constitutivity was trans acting. Deletion disruption of the MAL6-linked structural genes for maltase and maltose permease in this strain did not affect the constitutive expression of a second, unlinked maltase structural gene. We isolated new maltose-fermenting revertants of a nonfermenting strain which carried a deletion disruption of the MAL63 gene. All 16 revertants isolated expressed maltase constitutively. In one revertant studied in detail, strain R10, constitutive expression was demonstrated to be linked to MAL6, semidominant, trans acting, and residing outside the MAL63-MAL61-MAL62 genes. From these studies we propose the existence of a second trans-acting regulatory gene at the MAL6 locus. We call this new gene MAL64. We mapped the MAL64 gene 2.3 centimorgans to the left of MAL63. The role of the MAL64 gene product in maltose fermentation is discussed.     

Assignment of the αB-crystallin gene to human chromosome 11

Using a human αB-crystallin genomic probe and human-mouse somatic cell hybrids, the human αB-gene was assigned to chromosome 11 and further corroborated by in situ hybridization to normal metaphase chromosomes. This assignment confirmed and regionally mapped the locus to q22.3–23.1.     

Complementation analysis of pseudorabies virus gE and gI mutants in retinal ganglion cell neurotropism.

Pseudorabies virus glycoproteins gE and gI are required to infect some, but not all, regions of the rodent central nervous system after peripheral injection. After infection of the retina, pseudorabies virus mutants lacking either gE or gI can subsequently infect neural centers involved in the control of circadian function but cannot infect visual circuits mediating visual perception or the reflex movement of the eyes. In this study, we used genetic complementation to test the hypothesis that gE and gI are required for entry into the specific retinal ganglion cells that project to visual centers. These data strongly suggest that gE and gI must function after the viruses enter primary neurons in the retina.     

Separation, isolation and amino acid composition of uremic peptides

Gel filtration and thin layer chromatography were conducted on sera from uremic patients and normal subjects for the isolation of nitrogenous substances unique to uremia. Many ninhydrin-positive substances were found in greater amounts in uremic patients compared to normal subjects. Some of these ninhydrin-positive substances were also detected by staining with chlorine-tolidine. Amino acid analysis of these substances showed considerable qualitative and quantitative differences, perhaps reflecting interference with enzymatic activity by the uremic environment.     

Sequence and structure of a methionine transfer RNA from mosquito mitochondria.

We have sequenced a methionine tRNA from mosquito mitochondria, and examined its structure using nucleases S1 and T1 under non-denaturing conditions. The sequence is highly homologous to a putative initiator methionine tRNA gene from Drosophila mitochondria. Its anticodon stem contains a run of three G-C base pairs that is characteristic of conventional initiator tRNAs; however, nuclease S1 analysis suggested an anticodon loop configuration characteristic of conventional elongator tRNAs. We propose that this tRNA can assume both initiator and elongator roles.     

Methylation status of 13S ribosomal RNA from hamster mitochondria: the presence of a novel riboside, N4-methylcytidine.

The ribosomal RNA ("13S" RNA) of the small ribosomal subunit of hamster cell mitochondria has been found to have a distinctive pattern of methylated residues. Each molecule contained, on the average, approximately one residue of m4Cp, m5Cp and m5Up, and two residues of m62Ap. The natural occurrence of m4Cp has not previously been reported; we propose that this nucleotide is homologous to its ribose-methylated congener, m4Cmp, which is characteristic of bacterial 16S ribosomal RNA. We detected neither m4Cp nor m4Cmp in the hamster cell cytoplasmic ribosomal RNA. This is the first documentation of a modified residue present in mitochondrial RNA but absent from the cytoplasmic RNA of the same cells.     

Methylated constituents of Aedes albopictus poly (A)-containing messenger RNA.

Poly (A)-containing mRNA prepared from cultured mosquito (Aedes albopictus) cells was found to contain methylated 5'-terminal "caps" as well as internal m6A residues. Both type I [m7G(5')ppp(5')Xmp] and type II [m7G(5')ppp(5')XmpYmp] caps were present, at molar ratio of ca five to one. All four common RNA bases were represented in the second position (Xm) of the caps, adenine being the most abundant and N6-methyladenine being absent. The four bases were also represented in the third position (Ym), but here uracil was the predominant base. There was approximately one internal m6A residue for every three caps. These studies demonstrate that mRNA from an invertebrate source can have a methylation pattern comparable with that of mammalian cells in it complexity.