Variants of human tissue-type plasminogen activator substituted at the protease cleavage site and glycosylation sites, and truncated at the N- and C-termini.

Mutations were directed to specific regions of the human tissue-type plasminogen activator (t-PA) gene in an effort to better define structure-function relationships of the enzyme. Three types of modifications were effected by in vitro mutagenesis: elimination of glycosylation sites; substitutions of amino acids at the cleavage site for conversion of single-chain t-PA to two-chain t-PA; and truncations of the N- and C-termini. Thirteen variants were purified from permanent CHO cell lines and analyzed for specific activity, fibrin stimulation, fibrin binding, inhibition by plasminogen activator inhibitor-2 (PAI-2) and half-life. The results of these analyses are: (i) variants with carbohydrate-depleted kringle domains possessed higher specific activities than wild-type t-PA; (ii) a cleavage site variant substituted at Arg275 with Gly had greatly reduced specific activity; (iii) two variants substituted at Lys277 exhibited altered interactions with PAI-2; (iv) the variant with a truncated C-terminus had reduced activity in the absence of fibrin; and (v) no variants had significantly altered half-lives. In order to test the effects of combining mutations, four additional variants were produced. Each combination variant retained at least one of the altered properties observed in the original variants, and in three of the variants the diverse properties were additive.

Nucleotide sequence and expression of an AIDS-associated retrovirus (ARV-2).

The nucleotide sequence of molecular clones of DNA from a retrovirus, ARV-2, associated with the acquired immune deficiency syndrome (AIDS) was determined. Proviral DNA of ARV-2 (9737 base pairs) has long terminal repeat structures (636 base pairs) and long open reading frames encoding gag (506 codons), pol (1003 codons), and env (863 codons) genes. Two additional open reading frames were identified. Significant amino acid homology with several other retroviruses was noted in the predicted product of gag and pol, but ARV-2 was as closely related to murine and avian retroviruses as it was to human T-cell leukemia viruses (HTLV-I and HTLV-II). By means of an SV-40 vector in transfected simian cells, the cloned gag and env genes of ARV-2 were shown to express viral proteins.

Faithful initiation of ribosomal RNA transcription from cloned DNA by purified RNA polymerase I.

A faithful transcription system for ribosomal RNA genes has been developed by using components from the small free-living amoeba Acanthamoeba castellanii. The system utilizes protein-free recombinant DNA as a template and in addition requires a crude cell-free extract containing RNA polymerase I and a transcription initiation factor (TIF-I). The transcript is initiated at the same position as the in vivo precursor ribosomal RNA: templates truncated at various sites downstream of the transcription start site give rise to only the predicted runoff RNA transcripts, and the runoff transcript produced has a 5'-terminus identical with the 5'-terminus of the isolated ribosomal RNA precursor. Faithful initiation can be elicited by the DNA sequence extending from -55 to +19 in the template. Subclones containing this sequence yield only the predicted runoff RNAs regardless of the orientation of this fragment in the cloning vector DNA; thus, only the in vivo sense strand of the template is specifically transcribed in the in vitro system. The system is specific for the RNA polymerase responsible for the transcription of ribosomal RNA genes in vivo. Faithful transcription, like RNA polymerase I from Acanthamoeba, is insensitive to alpha-amanitin inhibition, and transcription is greatly stimulated by highly purified RNA polymerase I but not by RNA polymerases II or III. Conditions for optimal transcription were determined.