Abstract: The invention provides novel erythromycin derivatives in which methyl groups on the macrolactone ring have been substituted with --H, --Et, and/or --OH. The invention also provides reagents such as isolated polynucleotides, vectors comprising the polynucleotides and host cells transformed with the vectors for making the novel compounds. Methods for making the compounds utilizing genetic engineering techniques are also disclosed.

Abstract: A method to produce novel polyketide structures by designing and introducing specified changes in the DNA governing the synthesis of the polyketide is disclosed. The biosynthesis of specific polyketide analogs is accomplished by genetic manipulation of a polyketide-producing microorganism by isolating a polyketide biosynthetic gene-containing DNA sequence, identifying enzymatic activities associated within the DNA sequence, introducing one or more specified changes into the DNA sequence which codes for one of the enzymatic activities which results in an altered DNA sequence, introducing the altered DNA sequence into the polyketide-producing microorganism to replace the original sequence, growing a culture of the altered microorganism under conditions suitable for the formation of the specific polyketide analog, and isolating the specific polyketide analog from the culture.

Abstract: The present invention provides isolated polynucleotides from Saccharomyces erythraea that encode enzymes involved in the biosynthesis of polyketide-associated sugars. Methods of using the polynucleotides to produce novel glycosylation modified polyketides are also provided.

Abstract: A method to produce novel polyketide structures by designing and introducing specified changes in the DNA governing the synthesis of the polyketide is disclosed. The biosynthesis of specific polyketide analogs is accomplished by genetic manipulation of a polyketide-producing microorganism by isolating a polyketide biosynthetic gene-containing DNA sequence, identifying enzymatic activities associated within the DNA sequence, introducing one or more specified changes into the DNA sequence which codes for one of the enzymatic activities which results in an altered DNA sequence, introducing the altered DNA sequence into the polyketide-producing microorganism to replace the original sequence, growing a culture of the altered microorganism under conditions suitable for the formation of the specific polyketide analog, and isolating the specific polyketide analog from the culture.

Abstract: Proteins heterologous to B. megaterium can be expressed in B. megaterium using a sporulation promoter from B. subtilis.

Abstract: A method of interrupting the expression of a macromolecular synthesis operon in bacteria comprising the step of binding an antisense oligonucleotide to a single stranded DNA or to a mRNA transcribed from the macromolecular synthesis operon. The antisense oligonucleotide can be either sequence specific to a unique intergenic sequence or a sequence specific to a bacterial homologous sequence. By interrupting the expression of the macromolecular synthesis operon bacterial infections can be treated. Specific antisense oligonucleotides are disclosed. The ability of the antisense oligonucleotide to bind the mRNA or single stranded DNA also allows the identification of the bacteria by using a unique intergenic antisense oligonucleotide to bind to the single stranded DNA or to the mRNA transcribed from the macromolecular synthesis operon. A method for competitively inhibiting the protein products of the MMS operon with oligonucleotides is also disclosed.

Abstract: DNA cloning shuttle vectors, including a cosmid shuttle vector, for E. coli and Streptomyces are disclosed. Specifically, disclosed shuttle vectors pAL7002 (NRRL B-18055) and pNJ1 (NRRL B-18054) contain an E. coli origin of replication, Streptomyces replication functions, and antibiotic resistance markers for both E. coli and Streptomyces. In addition, pNJ1 contains a cos sequence. Novel 2-norerythromycin antibiotics A, B, C, and D, which were produced in a strain Streptomyces erythreus 12693-240 (NRRL B-18053) transformed by pNJ1 bearing DNA from Streptomyces antibioticus, are also disclosed. The present invention also provides a method for producing novel antibiotics. This method for antibiotic production is applied to the transformation of a blocked mutant of S. erythreus with genomic DNA from S. antibioticus but may be more broadly applied to genes of antibiotic-producing strains transformed into cells which are blocked in the pathway for production of a different antibiotic.

Abstract: DNA cloning shuttle vectors, including a cosmid shuttle vector, for E. coli and Streptomyces are disclosed. Specifically, disclosed shuttle vectors pAL7002 (NRRL B-18055) and pNJl (NRRL B-18054) contain an E. coli origin of replication, Streptomyces replication functions, and antibiotic resistance markers for both E. coli and Streptomyces. In addition, pNJl contains a cos sequence. Novel 2-norerythromycin antibiotics A, B, C, and D, which were produced in a strain Streptomyces erythreus 12693-240 (NRRL B-18053) transformed by pNJl bearing DNA from Streptomyces antibioticus, are also disclosed. The present invention also provides a method for producing novel antibiotics. This method for antibiotic production is applied to the transformation of a blocked mutant of S. erythreus with genomic DNA from S. antibioticus but may be more broadly applied to genes to antibiotic-producing strains transformed into cells which are blocked in the pathway for production of a different antibiotic.

Abstract: Using as an actuator a stepper motor operated in a position-sensed closed loop mode via an electronic commutator by position and anomaly corrected motion control signals provided by a programmable logic array and by a microprocessor, provides a precision power positioner. The correct enabling of the motor coils, based on position sensing of the motor phase, using electronic commutation for the stepper motor, transforms the problem of enabling coil selection to the programmable logic array, which by its logic provides a simplified operating control as a function of present armature position feedback, and by a microprocessor corrects for anomalies such as temperature rise, square-law, and phase increase as a function of position desired and present armature position feedback signals, and thus provides high positional accuracy, high speed and force (torque) control independent of the motor cardinal step positions.