Abstract: This invention is directed to nucleic acids which encode the proteins that direct the synthesis of the orthosomycin everninomicin and to use of the nucleic acids and proteins to produce compounds exhibiting antibiotic activity based on the everninomycin structure. The DNA sequence for the gene clusters responsible for encoding everninomicin biosynthetic genes, which provide the machinery for producing everninomicin, are provided. Thus, this invention provides the nucleic acid sequences needed to synthesize novel everninomicin-related compounds based on everninomicin, arising from modifications of the DNA sequence designed to change glycosyl and modified orsellinic acid groups contained in everninomicin. A Micromonospora site-specific integrase gene is also provided, which can be incorporated in a vector for integration into any actinomycete, and, particularly into Monospora.

Abstract: The present invention provides, inter alia, methods for predicting the sensitivity of a disease, such as cancer, to an ERK1 or ERK2 or MEK inhibitor by detecting the presence of an allele of BRAF in cells mediating the disease. Methods of treatment are also provided.

Abstract: The present invention comprises responsive promoters along with screening methods which make use of the promoters in order to identify anti-fungal substances.

Abstract: This invention is directed to nucleic acids which encode the proteins that direct the synthesis of the orthosomycin everninomicin and to use of the nucleic acids and proteins to produce compounds exhibiting antibiotic activity based on the everninomycin structure. The DNA sequence for the gene clusters responsible for encoding everninomicin biosynthetic genes, which provide the machinery for producing everninomicin, are provided. Thus, this invention provides the nucleic acid sequences needed to synthesize novel everninomicin-related compounds based on everninomicin, arising from modifications of the DNA sequence designed to change glycosyl and modified orsellinic acid groups contained in everninomicin. A Micromonospora site-specific integrase gene is also provided, which can be incorporated in a vector for integration into any actinomycete, and, particularly into Monospora.

Abstract: This invention is directed to nucleic acids which encode the proteins that direct the synthesis of the orthosomycin everninomicin and to use of the nucleic acids and proteins to produce compounds exhibiting antibiotic activity based on the everninomycin structure. The DNA sequence for the gene clusters responsible for encoding everninomicin biosynthetic genes, which provide the machinery for producing everninomicin, are provided. Thus, this invention provides the nucleic acid sequences needed to synthesize novel eveminomicin-related compounds based on eveminomicin, arising from modifications of the DNA sequence designed to change glycosyl and modified orsellinic acid groups contained in everninomicin. A Micromonospora site-specific integrase gene is also provided, which can be incorporated in a vector for integration into any actinomycete, and, particularly into Monospora.

Abstract: The present invention comprises responsive promoters along with screening methods which make use of the promoters in order to identify anti-fungal substances.

Abstract: This invention is directed to nucleic acids which encode the proteins that direct the synthesis of the orthosomycin everninomicin and to use of the nucleic acids and proteins to produce compounds exhibiting antibiotic activity based on the everninomycin structure. The DNA sequence for the gene clusters responsible for encoding everninomicin biosynthetic genes, which provide the machinery for producing everninomicin, are provided. Thus, this invention provides the nucleic acid sequences needed to synthesize novel everninomicin-related compounds based on everninomicin, arising from modifications of the DNA sequence designed to change glycosyl and modified orsellinic acid groups contained in everninomicin. A Micromonospora site-specific integrase gene is also provided, which can be incorporated in a vector for integration into any actinomycete, and, particularly into Monospora.

Abstract: This invention is directed to nucleic acids which encode the proteins that direct the synthesis of the orthosomycin everninomicin and to use of the nucleic acids and proteins to produce compounds exhibiting antibiotic activity based on the everninomycin structure. The DNA sequence for the gene clusters responsible for encoding everninomicin biosynthetic genes, which provide the machinery for producing everninomicin, are provided. Thus, this invention provides the nucleic acid sequences needed to synthesize novel everninomicin-related compounds based on everninomicin, arising from modifications of the DNA sequence designed to change glycosyl and modified orsellinic acid groups contained in everninomicin. A Micromonospora site-specific integrase gene is also provided, which can be incorporated in a vector for integration into any actinomycete, and, particularly into Monospora.

Abstract: This invention is directed to nucleic acids which encode the proteins that direct the synthesis of the orthosomycin everninomicin and to use of the nucleic acids and proteins to produce compounds exhibiting antibiotic activity based on the everninomycin structure. The DNA sequence for the gene clusters responsible for encoding everninomicin biosynthetic genes, which provide the machinery for producing everninomicin, are provided. Thus, this invention provides the nucleic acid sequences needed to synthesize novel everninomicin-related compounds based on everninomicin, arising from modifications of the DNA sequence designed to change glycosyl and modified orsellinic acid groups contained in everninomicin. A Micromonospora site-specific integrase gene is also provided, which can be incorporated in a vector for integration into any actinomycete, and, particularly into Monospora.

Abstract: Plasmid genes from Micromonospora carbonacea var. africana ATCC39149 pMLP1 have been isolated cloned, sequenced and functionally identified. These genes have been used to create vectors which integrate in a site-specific manner into the host chromosome of actinomycete species.

Abstract: This invention is directed to nucleic acids which encode the proteins that direct the synthesis of the orthosomycin everninomicin and to use of the nucleic acids and proteins to produce compounds exhibiting antibiotic activity based on the everninomycin structure. The DNA sequence for the gene clusters responsible for encoding everninomicin biosynthetic genes, which provide the machinery for producing everninomicin, are provided. Thus, this invention provides the nucleic acid sequences needed to synthesize novel everninomicin-related compounds based on everninomicin, arising from modifications of the DNA sequence designed to change glycosyl and modified orsellinic acid groups contained in everninomicin. A. Micromonospora site-specific integrase gene is also provided, which can be incorporated in a vector for integration into any actinomycete, and, particularly into Monospora.

Abstract: This invention is directed to nucleic acids which encode the proteins that direct the synthesis of the orthosomycin everninomicin and to use of the nucleic acids and proteins to produce compounds exhibiting antibiotic activity based on the everninomycin structure. The DNA sequence for the gene clusters responsible for encoding everninomicin biosynthetic genes, which provide the machinery for producing everninomicin, are provided. Thus, this invention provides the nucleic acid sequences needed to synthesize novel everninomicin-related compounds based on everninomicin, arising from modifications of the DNA sequence designed to change glycosyl and modified orsellinic acid groups contained in everninomicin. A. Micromonospora site-specific integrase gene is also provided, which can be incorporated in a vector for integration into any actinomycete, and, particularly into Monospora.

Abstract: Plasmid genes from Micromonospora rosaria pMR2 have been isolated, cloned, sequenced and functionally identified. These genes have been used to create vectors which can be used to express actinomycete genes, manipulate metabolic pathways and produce useful gene products such as hybrid antibiotics.

Abstract: Plasmid genes from Micromonospora carbonacea var. africana ATCC39149 pMLP1 have been isolated cloned, sequenced and functionally identified. These genes have been used to create vectors which integrate in a site-specific manner into the host chromosome of actinomycete species.

Abstract: Plasmid genes from Micromonospora rosaria pMR2 have been isolated, cloned, sequenced and functionally identified. These genes have been used to create vectors which can be used to express actinomycete genes, manipulate metabolic pathways and produce useful gene products such as hybrid antibiotics.