Abstract: Materials and methods for using polypeptides containing fragments and variants of endostatin to treat fibrosis are described herein.

Abstract: This document provides materials and methods for producing endostatin fusion polypeptides having anti-fibrotic activity. For example, provided herein are fusion polypeptides having an IgG Fc domain and a portion of human endostatin that can form high molecular weight multimers, as well as methods for producing such fusion polypeptides in plant cells.

Abstract: Herein is described a modified viral vector comprising: a coat protein modified, for example by the addition of a cysteine residue, such that the modified viral vector yields less soluble virus relative to that from an unmodified viral vector upon extraction of plant material infected with the modified viral vector, thereby facilitating purification of a recombinant protein expressed from the modified viral vector. Also described is a method of reducing viral coat protein impurities during purification of a recombinant protein, a method of biocontainment for a recombinant viral vector, and a method of generating virus inoculum for the modified viral vector.

Abstract: We describe here an in vitro method of increasing complementarity in a heteroduplex polynucleotide sequence. The method uses annealing of opposite strands to form a polynucleotide duplex with mismatches. The heteroduplex polynucleotide is combined with an effective amount of enzymes having strand cleavage activity, 3? to 5? exonuclease activity, and polymerase activity, and allowing sufficient time for the percentage of complementarity to be increased within the heteroduplex. Not all heteroduplex polynucleotides will necessarily have all mismatches resolved to complementarity. The resulting polynucleotide is optionally ligated. Several variant polynucleotides result. At sites where either of the opposite strands has templated recoding in the other strand, the resulting percent complementarity of the heteroduplex polynucleotide sequence is increased. The parent polynucleotides need not be cleaved into fragments prior to annealing heterologous strands. Therefore, no reassembly is required.

Abstract: We describe here an in vitro method of increasing complementarity in a heteroduplex polynucleotide sequence. The method uses annealing of opposite strands to form a polynucleotide duplex with mismatches. The heteroduplex polynucleotide is combined with an effective amount of enzymes having strand cleavage activity, 3? to 5? exonuclease activity, and polymerase activity, and allowing sufficient time for the percentage of complementarity to be increased within the heteroduplex. Not all heteroduplex polynucleotides will necessarily have all mismatches resolved to complementarity. The resulting polynucleotide is optionally ligated. Several variant polynucleotides result. At sites where either of the opposite strands has templated recoding in the other strand, the resulting percent complementarity of the heteroduplex polynucleotide sequence is increased. The parent polynucleotides need not be cleaved into fragments prior to annealing heterologous strands. Therefore, no reassembly is required.

Abstract: We describe here an in vitro method of redistributing sequence variations between non-identical polynucleotide sequences, by making a heteroduplex polynucleotide from two non-identical polynucleotides; introducing a nick in one strand at or near a base pair mismatch site; removing mismatched base(s) from the mismatch site where the nick occurred; and using the opposite strand as template to replace the removed base(s) with bases that complement base(s) in the first strand. By this method, information is transferred from one strand to the other at sites of mismatch.

Abstract: This invention is directed to a monopartite RNA viral vector comprising modified tobravirus RNA-1 comprising an inserted foreign RNA sequence. This invention is also directed to a bipartite RNA viral vector derived from a tobravirus, wherein the vector comprises one or more foreign RNA sequences. The invention is directed to a method of silencing one or more endogenous plant host genes and a method of simultaneously silencing a plant host gene and expressing a foreign gene in a plant host. Such methods comprise infecting a plant host with a bipartite vector comprising modified tobravirus RNA-1 and RNA-2. The invention is further directed to a method of compiling a plant functional gene profile, a method of changing the phenotype or biochemistry of a plant host, and a method of determining the presence of a trait in a plant host, using a monopartite or bipartite viral vector derived from a tobravirus.