Changes in the calpains and calpastatin during postmortem storage of bovine muscle.

Changes in activity and protein status of micro-calpain, m-calpain, and calpastatin in bovine semimembranosus muscle during the first 7d of postmortem storage were monitored by using assays of proteolytic activity, SDS-polyacrylamide gel electrophoresis, and Western blot analysis. Extractable m-calpain activity changed slightly during the first 7d after death (decreased to 63% of at-death activity after 7d), whereas extractable calpastatin activity decreased substantially (to 60% of at-death activity after 1d and to 30% of at-death activity after 7d of postmortem storage) during this period. Extractable micro-calpain activity also decreased rapidly (to 20% of at-death activity at 1d and to less than 4% of its at-death activity at 7d after death) during postmortem storage. Western blot analysis showed that the 80-kDa subunit of m-calpain remained undegraded during the first 7d after death but that the 125- to 130-kDa calpastatin polypeptide was gone entirely at 7d after death. Hence, the calpastatin activity remaining at 7d originates from calpastatin polypeptides that are 42 kDa or smaller. The 80-kDa micro-calpain subunit was almost entirely in the 76-kDa autolyzed form at 7d after death; this form is proteolytically active in in vitro systems, and it is unclear why the postmortem, autolyzed micro-calpain is not active. Over 50% of total muscle micro-calpain is tightly bound to myofibrils 7d after death; this micro-calpain is also nearly inactive proteolytically. Unless postmortem muscle contains some factor that enables micro-calpain in this muscle to be proteolytically active, it is not clear whether micro-calpain could be responsible for any appreciable postmortem myofibrillar proteolysis.

Characteristics of Beet Soilborne Mosaic Virus, a Furo-like Virus Infecting Sugar Beet.

Beet soilborne mosaic virus (BSBMV) is a rigid rod-shaped virus transmitted by Polymyxa betae. Particles were 19 nm wide and ranged from 50 to over 400 nm, but no consistent modal lengths could be determined. Nucleic acids extracted from virions were polyadenylated and typically separated into three or four discrete bands of variable size by agarose-formaldehyde gel electrophoresis. RNA 1 and 2, the largest of the RNAs, consistently averaged 6.7 and 4.6 kb, respectively. The sizes and number of smaller RNA species were variable. The molecular mass of the capsid protein of BSBMV was estimated to be 22.5 kDa. In Northern blots, probes specific to the 3' end of individual beet necrotic yellow vein virus (BNYVV) RNAs 1-4 hybridized strongly with the corresponding BNYVV RNA species and weakly with BSBMV RNAs 1, 2, and 4. Probes specific to the 5' end of BNYVV RNAs 1-4 hybridized with BNYVV but not with BSBMV. No cross-reaction between BNYVV and BSBMV was detected in Western blots. In greenhouse studies, root weights of BSBMV-infected plants were significantly lower than mock-inoculated controls but greater than root weights from plants infected with BNYVV. Results of serological, hybridization, and virulence experiments indicate that BSBMV is distinct from BNYVV. However, host range, capsid size, and the number, size, and polyadenylation of its RNAs indicate that BSBMV more closely resembles BNYVV than it does other members of the genus Furovirus.

Hepatocyte growth factor activates quiescent skeletal muscle satellite cells in vitro.

The effect of hepatocyte growth factor (HGF) on the activation of quiescent rat skeletal muscle satellite cells was evaluated in vitro. Satellite cells from 9-month-old adult rats are quiescent in vivo and when cultured, display a protracted lag phase prior to division that is not present in satellite cells from neonatal or regenerating muscle. Under normal growth conditions, satellite cells divide for the first time between 42 and 60 hr. Hepatocyte growth factor increased proliferation in a dose-dependent fashion prior to 48 hr with half-maximal stimulation at approximately 3 ng/ml; in addition, heparin enhanced this activity. The time course of cyclin-D1 and proliferating cell nuclear antigen (PCNA) expression was accelerated in HGF-treated satellite cells, indicating that cells entered the cell cycle earlier. No significant effects on muscle-derived fibroblast proliferation was observed. The signalling receptor for HGF is the product of the c-met protooncogene, and rtPCR analysis of satellite cells 0-72 hr in culture demonstrated the presence of this message throughout this time period. The presence of c-met in quiescent satellite cells, the ability of HGF to stimulate precocious entry into the cell cycle, and the previously described localization of HGF message in regenerating muscle (Jennische et al., 1993) indicate that HGF could act as an activator of quiescent satellite cells in vivo.

Nucleotide sequence of carnation ringspot dianthovirus RNA-1.

The nucleotide sequence of carnation ringspot virus (CRSV) RNA-1, the type member of the dianthovirus genus, has been determined. The 3756 nucleotide genomic RNA-1 contains three large open reading frames (ORFs), capable of encoding 27K, 54K and 38K polypeptides. In addition, a small ORF encoding a 10K polypeptide at the 3' terminus of the RNA has been identified. The gene organization of CRSV RNA-1 is similar to those of red clover necrotic mosaic (RCNMV) and sweet clover necrotic mosaic (SCNMV) dianthoviruses with the exception that CRSV RNA-1 contains the additional 3'-terminal ORF. The 27K and 54K proteins possess significant sequence similarity to corresponding polypeptides of the other dianthoviruses. The 54K protein also contains the conserved RNA-dependent RNA polymerase motif. The identification of a shifty heptanucleotide preceding the p27 ORF termination codon and a predicted secondary structure following the terminator suggest that a translational frameshifting event allows translation to continue past the p27 ORF into the p54 ORF, which is in the -1 frame, generating an 88K fusion protein. Amino acid sequence alignment of the 38K protein with the corresponding RCNMV and SCNMV polypeptides indicate that this is the viral capsid protein.

Synthesis of the putative red clover necrotic mosaic virus RNA polymerase by ribosomal frameshifting in vitro.

The red clover necrotic mosaic virus (RCNMV) genome is split between two single-stranded RNA species termed RNA-1 and RNA-2. RNA-1 directs the synthesis of 88-kDa (p88), 57-kDa (p57), 37-kDa (p37), and 27-kDa (p27) polypeptides and RNA-2 a 35-kDa (p35) polypeptide in vitro. The coding order of the RNA-1 products was determined to be 5'-p27-p57-p37-3'. Antibodies to synthetic peptides representing the carboxyl terminal portions of p27 and p57 immunoprecipitated their respective polypeptides in addition to p88, suggesting that p88 is a fusion protein. A frameshift heptanucleotide sequence element has been identified in RCNMV RNA-1. In addition, a stable stem-loop secondary structure adjacent to the heptanucleotide sequence is predicted. Together, these sequence elements suggest that a ribosomal frameshifting event occurs which allows translational readthrough of the p27 open reading frame into the p57 open reading frame, generating the observed p88 product. An RNA-1 expression construct fusing the p57 and the CP open reading frame was engineered to investigate the ribosomal frameshifting event. CP antibodies immunoprecipitated a fusion protein of the predicted size containing the carboxyl portion of CP. Site-directed mutagenesis of the frameshift element indicates that in vitro, p88 can also be expressed alternatively by suppression of an amber termination codon. Based on these data, we propose that the putative RCNMV RNA polymerase is an 88-kDa polypeptide expressed by a ribosomal frameshifting mechanism similar to those utilized by retroviruses.

Effect of pH and ionic strength on bovine m-calpain and calpastatin activity.

The effects of bovine skeletal muscle m-calpain and calpastatin on the degradation of casein and isolated bovine myofibrils were characterized under various pH values (7.0, 6.2, 5.7) and ionic strengths (32 to 400 mM KCl) at 25 degrees C. Caseinolytic assays indicated that m-calpain activity increased with increasing pH (P < .01) but decreased with increasing ionic strength (P < .01). Regardless of the presence of m-calpain, SDS-PAGE of myofibrils showed increased solubilization of myofibrillar proteins as pH and ionic strength increased. However, only in the presence of m-calpain were changes normally observed during postmortem storage reproduced. Protein release attributed to m-calpain activity increased with pH, but the effects of elevated ionic strength on the ability of m-calpain to hydrolyze myofibrillar proteins were not evident from SDS-PAGE, except for the decreased troponin-T degradation by m-calpain at the higher ionic strengths. A pH x ionic strength interaction was observed for calpastatin activity determined by caseinolytic assays (P < .01). No changes in m-calpain inhibition were detected at pH 7.0 and 6.2 at different ionic strengths. However, at pH 5.7 the ability of calpastatin to inhibit m-calpain decreased with increasing ionic strength. No changes in m-calpain inhibition could be detected with SDS-PAGE. Based on these results, it can be concluded that although m-calpain and calpastatin activities decrease with increasing ionic strength, their activities in the presence of myofibrils were not affected by ionic strengths typically found in postmortem muscle.

Nucleotide sequence of carnation ringspot dianthovirus RNA-2.

RNA-2 of carnation ringspot virus (CRSV), the type member of the dianthovirus group, has been cDNA cloned and sequenced. CRSV RNA-2 is 1394 nucleotides in length and contains a single open reading frame encoding a 304 amino acid polypeptide of 33.8K. Amino acid sequence alignment of this polypeptide with the cell-to-cell movement proteins encoded by RNA-2 of red clover necrotic mosaic virus (RCNMV) Australian (Aus) and Czechoslovakian (TpM-34) isolates indicates 59.6% and 55.7% sequence identity, respectively. The N-terminal 230 amino acids are more highly conserved, with 64.3% and 62.6% sequence identity, respectively. The cell-to-cell movement proteins of the two RCNMV isolates are themselves 82.5% and 91.7% identical when the amino-terminal 230 amino acids are compared. Structural prediction comparison of the RCNMV-Aus, RCNMV-TpM-34 and tobacco mosaic virus cell-to-cell movement proteins to the putative CRSV RNA-2-encoded movement protein suggests that even though no primary amino acid sequence similarity exists, the movement protein polypeptides are possibly similar in structure and function.

Isolation of DNA from blood.

A rapid, economical method of DNA isolation from blood was developed that yields DNA suitable for Southern analysis and polymerase chain reactions without organic solvent extractions. Bovine DNA was prepared from peripheral leukocytes and nuclei using pronase E digestion and ethanol precipitation. This isolation method readily adapts to multiple samples. The DNA is characterized by high yield, solubility, lack of protein contamination, and ease of restriction endonuclease digestion.

Identification of the maize chlorotic mottle virus capsid protein cistron and characterization of its subgenomic messenger RNA.

Maize chlorotic mottle virus (MCMV) is a 30-nm icosahedral plant virus composed of a single 25-kDa capsid protein component and a 4.4-kb single-stranded, positive-sense genomic RNA. Northern blot hybridization analysis detected a single 3'-terminal 1.1-kb subgenomic RNA in infected plants. Virion RNA directs the synthesis of several polypeptides in a rabbit reticulocyte lysate in vitro translation system of which only the 25-kDa polypeptide is immunoprecipitated by MCMV capsid protein antiserum. The 1.1-kb subgenomic RNA is a highly efficient messenger RNA for capsid protein synthesis. Positive polarity in vitro transcripts from 3'-proximal MCMV cDNA clones direct the synthesis of the capsid protein in in vitro translation experiments. These data suggest that the MCMV capsid protein is expressed from a subgenomic RNA in vivo, and that the 25-kDa capsid protein is encoded by the 3'-proximal open reading frame in the MCMV genome.

cDNA cloning and nucleotide sequence of the wheat streak mosaic virus capsid protein gene.

The 3'-terminal region of wheat streak mosaic virus (WSMV) genomic RNA was cloned and a cDNA sequence of 1809 nucleotides upstream of the poly(A) tract was determined. The sequence contains a single open reading frame of 1662 nucleotides and a 3' untranslated region of 147 nucleotides. Translation products from WSMV RNA and WSMV cDNA transcripts were immunoprecipitated by WSMV capsid protein antiserum, indicating that the 3'-terminal region of WSMV RNA encodes the capsid protein. Five potential N-terminal capsid protein protease cleavage sites were identified, which would yield proteins ranging from 31.7K to 46.8K. Alignment of the deduced amino acid sequence of the WSMV capsid protein with those of other potyviruses showed significant, but limited, identity as compared to the alignment of two or more aphid-transmitted potyviruses. Although WSMV has characteristics distinct from potyviruses, because of its particle morphology, translation strategy apparently based on polyprotein processing, the ability to form cytoplasmic cylindrical inclusions and the degree of capsid protein homology with aphid-transmitted potyviruses, it should be considered a member of the potyvirus group.