We propose that the antenna serves as an intersubunit communication conduit during negative cooperativity and allosteric regulation. GTP and NADH inhibit GDH by keeping the catalytic cleft in a closed conformation. In contrast, ADP probably binds to the back of the NAD(+)-binding domain and activates the enzyme by keeping the catalytic cleft open. Extensive contacts between antennae within the crystal lattice may represent hexamer interactions in solution and, perhaps, with other enzymes within the mitochondrial matrix.
The structures of Sindbis virus and Ross River virus complexed with Fab fragments from monoclonal antibodies have been determined from cryoelectron micrographs. Both antibodies chosen for this study bind to regions of the virions that -have been implicated in cell-receptor recognition and recognize epitopes on the E2 glycoprotein.The two structures show that the Fab fragments bind to the outermost tip of the trimeric envelope spike protein. Hence, the same region of both the Sindbis virus and Ross River virus envelope spike is composed of E2 and is involved in recognition of the cellular receptor.
The RecA protein has a second, direct role in the mutagenesis of Escherichia coli and bacteriophage lambda in addition to its first, indirect role of inducing the SOS system by enhancing the proteolytic cleavage of the LexA repressor protein. The need for RecA protease and recombinase functions in the direct role was examined in cells containing split-phenotype RecA mutations, in the absence of LexA protein. Spontaneous mutation of E. coli (his -> his') required both the protease and recombinase activities. The mutation frequency increased with increasing RecA protease strength. In contrast, UV-induced mutation of E. coli required only the RecA protease activity. Weigle repair and mutation of UV-irradiated phage S13 required only RecA protease activity, and even weak activity was highly effective; RecA recombinase activity was not required. RecA+ protein inhibited RecA (PC [protease constitutive] Rec+) protein in effecting spontaneous mutation of E. coli. We discuss the nature of the direct role of the RecA protein in spontaneous mutation and in repair and mutagenesis of UV-damaged DNA and also the implications of our results for the theory that SOS-mutable cryptic lesions might be responsible for the enhanced spontaneous mutation in Prtc Rec+ strains.
As a prerequisite to mutational analysis of functional sites on the RecA protein of Escherichia coli, a method was developed for rapid isolation of recA mutants with altered RecA protease function. The method involves plating mutagenized X recAV cI ind on strains deleted for recA and containing, as indicators of RecA protease activity, Mu d(Ap lac) fusions in RecA-inducible genes. The k recA phages were recognized by their altered plaque colors, and the RecA protease activity of the A recA mutant lysogens was measured by expression of [I-galactosidase from dinD::lac. One class of recA mutants had constitutive protease activity and was designated Prtc; in these cells the RecA protein was always in the protease form without the usual need for DNA damage to activate it. Some Pjt& mutants were recombinase negative and were designated Prtc Rec-. Another class of 65 recA mutants isolated as being protease defective were all also recombinase defective. Unlike the original temperature-dependent Prtc Rec+ mutant (recA441), the new PtC Rec+ mutants showed constitutive protease activity at any growth temperature, with some having considerably greater activity than the recA441 strain. Study of these strong Prtc Rec+ mutants revealed a new SOS phenomenon, increased permeability to drugs. Use of this new SOS phenomenon as an index of protease strength clearly distinguished 5 PC mutants as the strongest among 150. These five strongest Prtc mutants showed the greatest increase in spontaneous mutation
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