Resistance to trifluoroperazine, a calmodulin inhibitor, maps to the fabD locus in Escherichia coli

A mutant, tfpA1, resistant to the calmodulin inhibitor trifluoroperazine (TFP) at 30°C, was isolated in Escherichia coli. The mutant showed a reduced growth rate at 30°C and was temperature sensitive (ts) at 42°C for growth, forming short filaments. The mutation was mapped to the 24 min region of the chromosome and the gene was cloned by complementation of the is defect. Subsequent subcloning, complementation analysis, marker rescue mapping and sequencing, identified tfpA as fabD, encoding the 35 kDa, malonyl-coenzyme A transacylase (MCT) enzyme, required for the initial step in the elongation cycle for fatty acid biosynthesis. Resistance to TFP may result from altered permeability of the cell envelope, although the mutant remained sensitive to other calmodulin inhibitors and to other antibacterial agents. Alternatively, resistance may be more indirect, resulting from alterations in intracellular Ca⁺⁺ levels which affect the activity of the TFP target in some way.     

In Bradyrhizobium japonicum the common nodulation genes, nodABC, are linked to nifA and fixA

Summary Using cloned Rhizobium phaseoli nodulation (nod) genes as hybridization probes homologous restriction fragments were detected in the genome of the slow-growing soybean symbiont, Bradyrhizobium japonicum strain 110. These fragments were isolated from a cosmid library, and were shown to lie 10 kilobasepairs (kb) upstream from the nifA and fixA genes. Specific nod probes from Rhizobium leguminosarum were used to identify nodA-, nodB-, and nodC-like sequences clustered within a 4.5 kb PstI fragment. A mutant was constructed in which the kanamycin resistance gene from Tn5 was inserted into the nodA homologous B. japonicum region. This insertion was precisely located, by DNA sequencing, to near the middle of the nodA gene. B. japonicum mutants carrying this insertion were completely nodulation deficient (Nod^-).     

Ribosomal resistance of an istamycin producer, Streptomycestenjimariensis, to aminoglycoside antibiotics

$\text{Streptomyces}\text{tenjimariensis}$ SS-939 was resistant to its own aminoglycoside antibiotics, istamycins, as well as kanamycin A, neamine, ribostamycin and butirosin A, but was susceptible to neomycin B, lividomycin A and streptomycin. This resistance to these antibiotics was found to be due to ribosomes of the strain.     

Pathogenicity of entomopathogenic hyphomycetes, Paecilomyces fumoso-roseus and Nomuraea rileyi, to eggs of noctuids, Mamestra brassicae and Spodoptera littoralis

Bioassays were conducted to determine the susceptibility of egg masses of Mamestra brassicae and Spodoptera littoralis to different spore doses of Paecilomyces fumoso-roseus and Nomuraea rileyi at 20° and 25°C. P. fumoso-roseus was highly virulent against eggs, whereas N. rileyi provoked only a deferred mortality of larvae hatched from treated eggs. Nevertheless, larval mortality of S. littoralis caused by N. rileyi at 25°C was more effective after first-instar larval contamination than after egg mass treatment. The duration of the egg stage could explain differences of susceptibility between the two noctuids at 25°C. Scanning electron microscopical observations suggested two ways of contamination of newly hatched larvae. First, fungal germinations on the chorion surface suggested that newly hatched larvae might be infected by penetration of the egg integument before hatching. Second, conidia on the egg cuticle could be an entomopathogenic inoculum for newly emerging larvae which fed upon chorions. Results showed that pathogenicity of Hyphomycetes to noctuid eggs might be a promising area of investigation for biological control.     

Foliar pubescence and resistance to potato moth, Phthorimaea operculella, in Lycopersicon hirsutum

Pubescence characteristics for six accessions of Lycopersicon hirsutum Dunal and five accessions of L. hirsutum f. glabratum CH Mull. were determined and compared with those of an accession of cultivated tomato (L. esculentum Mill.). Removal of trichome exudates from excised leaflets using ethanol solution resulted in a reduced mortality and increased survival of potato moth (Phthorimaea operculella (Zeller)) neonates for the accessions that were most lethal when not treated with ethanol solution. No such treatment effect was evident for L. esculentum or for the L. hirsutum accession with least effect on neonates when its trichomes were intact. In a glasshouse experiment with caged intact plants, mortality of neonate P. operculella placed on the abaxial surface was greater on seven accessions than for L. esculentum.Neonates were less severely affected on the adaxial surface. Eleven days after inoculation, no live larvae were found on LA 1927, PI 127827, PI 134418, and PI 134428, and numbers on other accessions were lower than for L. esculentum. Eventual emergence of adults followed a similar trend. Multiple regression of insect data against pubescence indicated a significant correlation between density of type IV and VI trichomes and neonate mortality, decreased larval development and decreased adult emergence. Non-glandular type V trichomes were positively correlated with high survival of insects to 11 days and to adult. Though factors other than glandular trichomes are likely to be important, increased density of type IV and VI, along with reduced type V, are shown to be important to select in breeding for P. operculella resistance.     

Feeding response of Aphis pomi,Myzus persicae, and Amphorophora agathonica to phlorizin

Phlorizin, a phenolic compound present only in the apple genus, Malus, was found to be neutral as a probing stimulus to Aphis pomi, an apple feeder, but was a probing deterrent to the non-apple feeding aphids, Myzus persicae and Amphorophora agathonica. Phlorizin was an ingestion deterrent to all three species although the threshold was lower for A. pomi. Apple can be utilized as a host by A. pomi since it feeds in the phloem which appears not to contain phlorizin.     

A novel human nucleolar protein, Nop132, binds to the G proteins, RRAG A/C/D

RRAG A (Rag A)/Gtr1p is a member of the Ras-like small G protein family that genetically interacts with RCC1, a guanine nucleotide exchange factor for RanGTPase. RRAG A/Gtr1p forms a heterodimer with other G proteins, RRAG C and RRAG D/Gtr2p, in a nucleotide-independent manner. To further elucidate the function of RRAG A/Gtr1p, we isolated a protein that interacts with RRAG A. This protein is a novel nucleolar protein, Nop132. Nop132 is associated with the GTP form, but not the GDP form, of RRAG A, suggesting that RRAG A might regulate Nop132 function. Nop132 is also associated with RRAG C and RRAG D. The Nop132 amino acid sequence is similar to the Saccharomyces cerevisiae nucleolar Nop8p, which is associated with Gtr1p, Gtr2p, and Nip7p. Nop132 also interacts with human Nip7 and is colocalized with RRAG A, RRAG C, and Nip7. RNA interference knockdown of Nop132 inhibited cell growth of HeLa cells.     

Sesqui-Ds , the chromosome-breaking insertion at bz-m1 , links double Ds to the original Ds element

The bz-m1 mutation in maize was one of the first to arise by direct transposition of the chromosome-breaking Ds element from its original or `standard' location in chromosome 9S to a known locus in the same chromosome arm. Thus, elucidation of its structure should shed light on the nature of the original Ds element described by McClintock in 1948. The Ds insertion in bz-m1 has been reported to be only 1.2 kb long – much shorter than other chromosome-breaking Ds elements that have been described. We have characterized here the Ds element in our bz-m1 stocks and have confirmed by genetic and molecular tests that, in the presence of Ac, it acts as a chromosome breaker. The Ds insertion at bz-m1 is 1260 bp long. Besides its normal 5′ and 3′ ends, it contains an internal 3′ end at the same junction as the chromosome-breaking double Ds element that has been found in several sh mutations. Thus, it appears to have arisen from the 4.1-kb double Ds by internal deletion of 2.9 kb. Because the element has lost one internal 5′ end, but retains the chromosome-breaking properties of double Ds, we have named it sesqui-Ds (sDs). The origin, structure and properties of sDs vis-à-vis double Ds support the hypothesis that double Ds corresponds to the chromosome-breaking Ds element at the `standard' location in 9S. Received: 10 March 1997 / Accepted: 2 May 1997     

Susceptibility of the Bombyx mori cardia cells to Nucleopolyhedrovirus, multiple subgroup, BmMNPV

Bombyx mori entomopathogenic virus infection is a serious problem for silk production in tropical regions. Here, we investigate the susceptibility of the B. mori cardia epithelial cells to B. mori Nucleopolyhedrovirus, BmMNPV. Results show that cardia cells are susceptible to BmMNPV and that the cytopathology is similar to that in other target cells. The infection was detected at 6 day post-inoculation. This infection time, together with the protected cover intima, suggests that the cardia region is a secondary target, infected by budded virus.