pubmed:abstractText |
Glutamine synthetase is a major enzyme in the assimilation of ammonia by members of the genus Rhizobium. Two forms of glutamine synthetase are found in members of the genus Rhizobium, a heat-stable glutamine synthetase I (GSI) and a heat-labile GSII. As a step toward clarifying the role of these enzymes in symbiotic nitrogen fixation, we have cloned the structural gene for GSI from Rhizobium meliloti 104A14. A gene bank of R. meliloti was constructed by using the bacteriophage P4 cosmid pMK318. Cosmids that contain the structural gene for GSI were isolated by selecting for plasmids that permit ET8051, an Escherichia coli glutamine autotroph, to grow with ammonia as the sole nitrogen source. One of the cosmids, pJS36, contains an insert of 11.9 kilobases. ET8051(pJS36) grows slowly on minimal media. When a 3.7-kilobase HindIII fragment derived from this DNA is cloned into the HindIII site of pACYC177 and the plasmids are transformed into ET8051, rapid growth is observed when the insert is in one orientation (pJS44) but not the other (pJS45). Glutamine synthetase activity can be detected in ET8051(pJS44); most of this activity is heat stable. pJS36 hybridizes with the glnA structural gene from Escherichia coli. Insertion of a 2.7-kilobase Tetr determinant into a BglII site located within pJS44 abolishes all glutamine synthetase activity. This interrupted version of a glutamine synthetase gene was substituted for the normal R. meliloti sequence by homologous recombination in R. meliloti. Recombinants lose GSI activity, but retain GSII activity and grow well with ammonia as the sole nitrogen source. These mutants are unaffected in nodulation and nitrogen fixation.
|