Carol M. Beach scite author profile

The loss of HBII-52 and related C/D box small nucleolar RNA (snoRNA) expression units have been implicated as a cause for the Prader-Willi syndrome (PWS). We recently found that the C/D box snoRNA HBII-52 changes the alternative splicing of the serotonin receptor 2C pre-mRNA, which is different from the traditional C/D box snoRNA function in non-mRNA methylation. Using bioinformatic predictions and experimental verification, we identified five pre-mRNAs (DPM2, TAF1, RALGPS1, PBRM1 and CRHR1) containing alternative exons that are regulated by MBII-52, the mouse homolog of HBII-52. Analysis of a single member of the MBII-52 cluster of snoRNAs by RNase protection and northern blot analysis shows that the MBII-52 expressing unit generates shorter RNAs that originate from the full-length MBII-52 snoRNA through additional processing steps. These novel RNAs associate with hnRNPs and not with proteins associated with canonical C/D box snoRNAs. Our data indicate that not a traditional C/D box snoRNA MBII-52, but a processed version lacking the snoRNA stem is the predominant MBII-52 RNA missing in PWS. This processed snoRNA functions in alternative splice-site selection. Its substitution could be a therapeutic principle for PWS.

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Catalytic Hydrolysis of Vasoactive Intestinal Peptide by Human Autoantibody

Paul

Volle

Beach

et al. 1989

Science

415

239

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Vasoactive intestinal peptide (VIP) labeled with 125I, [Tyr10-125I]VIP, can be hydrolyzed by immunoglobulin G (IgG) purified from a human subject, as judged by trichloroacetic acid precipitation and reversed-phase high-performance liquid chromatography (HPLC). The hydrolytic activity was precipitated by antibody to human IgG, it was bound by immobilized protein G and showed a molecular mass close to 150 kilodaltons by gel filtration chromatography, properties similar to those of authentic IgG. The Fab fragment, prepared from IgG by papain treatment, retained the VIP hydrolytic activity of the IgG. Peptide fragments produced by treatment of VIP with the antibody fraction were purified by reversed-phase HPLC and identified by fast atom bombardment-mass spectrometry and peptide sequencing. The scissile bond in VIP deduced from these experiments was Gln16-Met17. The antibody concentration (73.4 fmol per milligram of IgG) and the Kd (0.4 nM) were computed from analysis of VIP binding under conditions that did not result in peptide hydrolysis. Analysis of the antibody-mediated VIP hydrolysis at varying concentrations of substrate suggested conformity with Michaelis-Menton kinetics (Km). The values for Km (37.9 X 10(-9) M) and the turnover number kcat (15.6 min-1) suggested relatively tight VIP binding and a moderate catalytic efficiency of the antibody.

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Proteomics of Muscle-Specific Beef Color Stability

Joseph

Suman

Rentfrow

et al. 2012

J. Agric. Food Chem.

223

179

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The objective of the present study was to differentiate the sarcoplasmic proteome of color-stable (Longissimus lumborum; LL) and color-labile (Psoas major; PM) beef muscles. LL and PM muscles from seven beef carcasses (24 h post-mortem) were fabricated into 2.54 cm steaks, aerobically packaged, and assigned to refrigerated retail display for 9 days. LL steaks demonstrated greater (P < 0.05) color stability and lower (P < 0.05) lipid oxidation than PM steaks. Proteome analyses identified 16 differentially abundant proteins in LL and PM, including antioxidant proteins and chaperones. Proteins demonstrating positive correlation with redness (aldose reductase, creatine kinase, and β-enolase) and color stability (peroxiredoxin-2, peptide methionine sulfoxide reductase, and heat shock protein-27 kDa) were overabundant in LL, whereas the protein overabundant in PM (mitochondrial aconitase) exhibited negative correlation with redness. The color stability of LL could be attributed to the overabundance of antioxidant proteins and chaperones, and this finding suggests the necessity of developing muscle-specific processing strategies to improve beef color.

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Activation of the MAPK Signal Cascade by the Neural Cell Adhesion Molecule L1 Requires L1 Internalization

Schaefer¹,

Kamiguchi²,

Wong³

et al. 1999

Journal of Biological Chemistry

168

171

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Phosphorylation of Eukaryotic Protein Synthesis Initiation Factor 4E at Ser-209

Joshi

Cai

Keiper

et al. 1995

Journal of Biological Chemistry

208

153

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Cell adhesion mediated by leukocyte integrin CR3 (CD11b/CD18, alpha m beta 2) may be rapidly modulated without changes in receptor number, and transient changes in adhesivity are thought to be driven by reversible alteration of the affinity of CR3 for ligand. Here we measure the binding affinity of CR3 using purified active and inactive receptor and the ligand, C3bi, coupled to alkaline phosphatase. Immobilized, active CR3 bound saturably and with high affinity (12.5 +/- 4.7 nM). In contrast, inactive CR3 exhibited no measurable binding. High affinity binding could be restored by the addition of the activating anti-CR3 monoclonal antibody KIM-127 to inactive CR3. Since the affinity of KIM-127 for active and inactive receptor was identical, it cannot contribute the energy to convert a low affinity receptor into a high affinity receptor. Rather, KIM-127 appears to facilitate binding of C3bi by lowering the activation energy for the shift from an inactive to an active state. These results suggest that CR3-mediated binding and detachment of cells is not driven by a reversible change in affinity but by two mechanistically distinct processes, an energetically neutral activation step for binding and an energy-dependent step that reverses binding of ligand.

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Carol M. Beach

The snoRNA MBII-52 (SNORD 115) is processed into smaller RNAs and regulates alternative splicing

Catalytic Hydrolysis of Vasoactive Intestinal Peptide by Human Autoantibody

Proteomics of Muscle-Specific Beef Color Stability

Activation of the MAPK Signal Cascade by the Neural Cell Adhesion Molecule L1 Requires L1 Internalization

Phosphorylation of Eukaryotic Protein Synthesis Initiation Factor 4E at Ser-209

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