Benny Decock

Petunia hybrida S-proteins: ribonuclease activity and the role of their glycan side chains in self-incompatibility

SummarySelf-incompatibility in flowering plants is controlled by the S-gene, encoding stylar S (allele-specific) glycoproteins. In addition to three previously characterized Petunia hybrida S-proteins, we identified by N-terminal sequence analysis another stylar S-protein, co-segregating with the Sb-allele. Purified S-proteins reveal biological activity, as is demonstrated for two of them by the allele-specific inhibition of pollen tube growth in vitro. Moreover, the four isolated S-proteins are ribonucleases (S-RNases). Specific activities vary from 30 (S1) to 1000 (S2) units per min per mg protein. We attempted to investigate the functionality of the carbohydrate portion of the S-RNases. Deglycosylation studies with the enzyme peptide-N-glycosidase F (PNGase F) reveals differences in the number of N-linked glycan chains present on the four S-RNases. Variability in the extent of glycosylation accounts for most of the molecular weight differences observed among these proteins. By amino acid sequencing, the positions of two of the three N-glycosylation sites on the S2-RNase could be located near the N-terminus. Enzymic removal of the glycan side chains has no effect on the RNase activity of native S-RNases. This suggests another role of the glycan moiety in the self-incompatibility mechanism.

Identification of the monocyte chemotactic protein from human osteosarcoma cells and monocytes: Detection of a novel N-terminally processed form

The chemotactic activity for monocytes in culture supernatants from double-stranded RNA-stimulated human MG-63 osteosarcoma cells and from LPS-stimulated human monocytes was purified to homogeneity and characterized by amino acid sequence analysis. The chemotactic protein derived from the fibroblastoid osteosarcoma cells had a blocked N-terminus but sequencing of tryptic fragments showed that it was identical with a recently identified monocyte chemoattractant designated MCP-1 or MCAF isolated from glioma or myelomonocytic cells, respectively. Preparations of monocyte -derived chemotactic activity appeared to contain not only the blocked protein, but also a novel N-terminally processed form of this molecule, lacking 5 amino acid residues.

Purification and N-terminal sequencing of style glycoproteins associated with self-incompatibility in Petunia hybrida

We report isolation and N-terminal amino acid sequencing of three style glycoproteins, which segregate with three S (self-incompatibility) alleles of Petunia hybrida. The S-glycoproteins were expressed mainly in the upper part of the pistil and showed an increasing concentration during flower development. The glycoproteins were purified by a combination of ConA-Sepharose and cation exchange fast protein liquid chromatography. The amount of S-glycoproteins recovered from style extracts varied from 0.5 to 1.6 μg per style, which was 40–60% of the amount recovered by a simplified analytical method. N-terminal amino acid sequences of S1-, S2- and S3-glycoprotein showed homology within the fifteen amino terminal residues. These amino acid sequences were compared with the previously published sequences of S-glycoproteins from Nicotiana alata and Lycopersicon peruvianum.

Further biological and molecular characterization of actinophage VWB

The development cycle of the temperate actinophage VWB was investigated. Adsorption of most phage particles occurred within 30 min and the adsorption constant was 0.6 x 10(-8) ml min-1. The latent and rise periods were 140 and 100 min, respectively, and the burst size was estimated to be 130-250 p.f.u. Although phage VWB could infect only Streptomyces venezuelae ETH 14630 (ATCC 40755), of six different S. venezuelae strains tested, phage DNA could be introduced by transfection into most non-infectible strains. Upon transfection, phage DNA was propagated in these non-infectible strains and phage particles were released. In addition, the transfected strains could be lysogenized. By comparison of restriction fragments of VWB DNA, either free or integrated in the chromosomal DNA of the S. venezuelae ETH 14630 lysogen, the attachment site was localized. PAGE of the phage proteins revealed at least 17 different proteins with three major bands estimated as 16.5, 27.2 and 43 kDa in size. The N-terminal amino acid sequence of these supposed major head and tail proteins was determined. The corresponding DNA sequences on the phage genome were localized using oligonucleotides synthesized on the basis of the N-terminal amino acid sequences. The genes coding for the major structural proteins were shown to be clustered, as has been observed for other bacteriophages.

Heterogeneity of human tissue-type plasminogen activator

Tissue‐type plasminogen activator (t‐PA) from human melanoma cells (Bowes) was purified by immunosorbent chromatography on affinospecific polyclonal antibodies and gel filtration in the presence of KSCN. The immunosorbent eluate contained three major components of > 200, 85 and 65 kDa, respectively. The 65 kDa t‐PA component could be separated by gel filtration on Ultrogel AcA44 in the presence of KSCN to a pure preparation yielding a unique N‐terminal amino acid sequence. Immunoblot analysis, using affinospecific antibodies against t‐PA, was a specific and sensitive method to identify different types of t‐PA (I–IV), as well as t‐PA‐inhibitor complexes and degradation products in unstimulated melanoma cell culture fluids. Furthermore, the t‐PA preparations, produced by phorbol ester‐treated melanoma cells, were free of type IV and thus differed physicochemically from the constitutively produced t‐PA preparations. The composition of t‐PA from mammalian cell cultures is thus more complex than hitherto described.

Human rhinovirus protein synthesis and polyprotein cleavage in infected HeLa-RH cells: brief report

SummaryPrecursor and mature polypeptides of four human rhinovirus types (HRV 30, 63, 81 and 88) were compared. The SDS-PAGE profiles of the HRV-specific polypeptides differed significantly from each other, as well as from those of the HRV types studied previously (HRV 1A, 2 and 14). Our results provide further evidence for considerable heterogeneity within the rhinovirus genus.