Genome structure and phylogenetic analysis of lettuce infectious yellows virus, a whitefly-transmitted, bipartite closterovirus.

We report the complete nucleotide sequences of lettuce infectious yellows virus (LIYV) RNAs 1 and 2. LIYV RNA 1 is 8118 nucleotides and includes three open reading frames (ORFs). Computer-assisted analysis of LIYV RNA 1 ORFs identified domains for a papain-like protease, methyltransferase (MTR), RNA helicase (HEL), and RNA-dependent RNA polymerase (RdRp).

Partial characterization of the lettuce infectious yellows virus genomic RNAs, identification of the coat protein gene and comparison of its amino acid sequence with those of other filamentous RNA plant viruses.

Purified virions of lettuce infectious yellows virus (LIYV), a tentative member of the closterovirus group, contained two RNAs of approximately 8500 and 7300 nucleotides (RNAs 1 and 2 respectively) and a single coat protein species with M(r) of approximately 28,000. LIYV-infected plants contained multiple dsRNAs. The two largest were the correct size for the replicative forms of LIYV virion RNAs 1 and 2.

A variant mitochondrial DNA arrangement specific toPetunia stable sterile somatic hybrids.

We have characterized two related regions of twoPetunia mitochondrial genomes in order to understand how plant mt genomes from a cytoplasmic male sterile (cms) line and a fertile line diverge from one another. Restriction maps of these regions indicate that a sequence arrangement shared by the two genomes adjoins sequences which are not shared at the corresponding locations in the two genomes. A point where the mt genomes from the cms line and the fertile lines diverge from each other was identified and mapped.

Characterization of a molecular modification of phytochrome that is associated with its conversion to the far-red-absorbing form.

Phytochrome that has been photoinduced to pellet by irradiation of intact oat (cv. Garry) shoots and recovered from a pellet obtained by centrifugation of crude extracts exhibits modified behavior when compared to soluble phytochrome isolated from shoots that had never been irradiated. This modified behavior includes retarded mobility during sodium dodecyl sulfate polyacrylamide gel electrophoresis (Boeshore ML, LH Pratt 1980 Plant Physiol 66: 500-504).

Phytochrome Modification and Light-enhanced, In Vivo-induced Phytochrome Pelletability.

Phytochrome that was induced by red irradiation in vivo to pellet with subcellular material and that was released from the pellet by removal of divalent cations exhibited altered characteristics. Compared to phytochrome extracted in a soluble red-absorbing form from etiolated tissue, pelleted and released phytochrome, which was also assayed in the red-absorbing form even though pelleted in the far-red-absorbing form, showed 50% greater micro complement fixation activity, eluted closer to the void volume of a Sephadex G-200 column, and electrophoresed more slowly on sodium dodecyl sulfate-polyacrylamide gels. Data presented here document that phytochrome pelleted in the far-red-absorbing form differs from soluble phytochrome extracted from nonirradiated tissue.