Complete genome sequence of Serratia ureilytica KML.E1, a copper-tolerant strain isolated from a disused tungsten mine.

Serratia ureilytica KML.E1 was recovered from a disused tungsten mine in Hong Kong and can tolerate copper(II) concentrations up to 90 mM. Its complete genome, a single chromosome of 5,094,661 bp (59.68% G+ C), was established through hybrid assembly.

Fat body protein granules and storage proteins in the silkmoth, Hyalophora cecropia.

Fat body cells of silkmoth pupae (Hyalophora cecropia ) contain granules, showing a less dense outer zone and a denser, often crystalline, inner portion appear after cocoon spinning and increase until the larval-pupal ecdysis; more granules are formed in females than in males. Urate granules, appearing fibrous in internal structure, first form about the same time, but their accumulation is more gradual, and continues in the pupa. Both types have been isolated by centrifugation. Protein granules dissolve in buffers to yield proteins 1 and 2, with distinct electrophoretic and antigenic properties. These proteins have been isolated individually from pupal fat body extracts by using their different thermal stabilities in phosphate buffer containing MgCl2 and (NH4)2SO4, respectively, and purification was completed by gel chromatography. Protein 1 has a molecular weight of 480,000 and a subunit of 85,000 daltons, while protein 2 gives values of 530,000 and 89,000, respectively. Their amino acid compositions are similar but distinct. Proteins 1 and 2 accumulate in the hemolymph, beginning 3 days before spinning, reach maximal levels at spinning, and then decline in the hemolymph while granules are formed in the fat body, although the total hemolymph protein concentration does not decline at this time. It is concluded that the fat body of the late, feeding larva synthesizes two related "storage proteins" and secretes them in partially crystalline granules as protein reserves for metamorphosis.

Juvenile hormone induced vitellogenin synthesis in the monarch butterfly.

The vitellogenin (yolk protein) of the monarch butterfly has been identified by electrophoretic and immunochemical techniques. In freshly emerged female adults ligature of the neck prevents appearance of this protein in the hemolymph; it prevents yolk deposition and egg maturation as well. These processes are restored by injection of juvenile hormone; the restoration involves induction of vitellogenin synthesis, as shown by incorporation of [(3)H]leucine.

Hormonal release of programmed behavior in silk moths: probable mediation by cyclic AMP.

The eclosion hormone triggers a stereotyped preprogrammed pattern of behavior in silk moths. The effects of the hormone were duplicated by the injection of dibutyryl adenosine 3', 5'-monophosphate, adenosine 3', 5'-monophosphate (cyclic AMP), or guanosine 3', 5'-monophosphate (cyclic GMP) into theophylline-treated pharate moths. Treatment with theophylline reduced the latency of the response to a low dose of hormone, presumably by blocking phosphodiesterase. Endogenous levels of cyclic AMP, but not cyclic GMP, increased significantly in the central nervous system within 10 minutes after hormone injection. We conclude that an early step leading to the release of the eclosion motor program is an increase in cyclic AMP in target neurons of the central nervous system.

A DNA-binding protein, tfp1, involved in juvenile hormone-regulated gene expression in Locusta migratoria.

A partially palindromic 15-nt. sequence upstream from a juvenile hormone-regulated gene (jhp21) was previously identified in the African migratory locust, Locusta migratoria. This sequence was proposed as a juvenile hormone (JH) response element (JHRE), and a protein that bound to it, as a transcription factor (TF). A yeast strain was constructed containing four tandem copies of the JHRE and after transfection with a cDNA library made to fat bodies from vitellogenic females, yeast one-hybrid experiments yielded sequences for four putative binding proteins. One of these sequences, corresponding to a transcript that was present in fat body irrespective of JH stimulation, encodes a 35kDa protein. This was designated tfp1 and appears to have a leucine zipper motif and a lipid-binding motif. Recombinant tfp1 bound to JHRE in electrophoretic mobility shift experiments and addition of tfp1 antibody in the binding reaction resulted in the disappearance or shift of TF. We suggest that JH induces the association of pre-existing proteins, including tfp1, to form an active complex, which binds to the JHRE upstream from jhp21 and regulates its transcription.

Cyclic nucleotide phosphodiesterases in the cricket, Acheta domesticus.

Exceptionally high levels of guanosine 3'-5'-cyclic monophosphate (cyclic GMP) in the accessory reproductive gland of the male house cricket, Acheta domesticus, led to an investigation of cyclic nucleotide phosphodiesterase (EC 3.1.4.--) as a possible regulatory enzyme. Cricket cyclic nucleotide phosphodiesterase activity with cyclic GMP or cyclic AMP as substrate had a pH optimum around 9.0, required Mg2+ or Mn2+ for maximal activity, and was inhibited by EDTA and methylxanthines. Cyclic GMP phosphodiesterase occurred mainly in the soluble fraction of homogenates of accessory glands or whole crickets, but cyclic AMP phosphodiesterase in the accessory gland was primarily particulate. Kinetic analysis indicated three forms of cyclic GMP phosphodiesterase, with Km values at 2.9 muM, 71 muM and 1.5 mM. Chromatography of whole cricket or accessory gland extracts on DEAE cellulose gave an initial peak having comparable activity with either cyclic GMP or cyclic AMP, and a second peak specific for cyclic AMP. There were no appreciable changes in the specific activity or kinetic properties of accessory gland cyclic GMP phosphodiesterase during a developmental period over which cyclic GMP levels rise more than 500-fold. Thus, the accumulation of cyclic GMP in the accessory gland is probably not associated with concomitant developmental modulation of phosphodiesterase activity.

Cyclic guanosine 3'-5'-monphosphate. High levels in the male accessory gland of Acheta domesticus and related crickets.

Guanosine 3',5'-monophosphate (cyclic GMP) was found in the accessory gland of reproductively mature male house crickets (Acheta domesticus (L.)) up to the exceptionally high level of 500 pmol/mg protein (10(-4) mol/kg wet weight). The identity of cricket cyclic GMP was confirmed by enzymatic and spectral analysis. A survey of 10 closely related species of Orthoptera indicated that high levels of cyclic GMP in the accessory gland occur in the subfamily Gryllinae, to which A. domesticus belongs. In these crickets, cyclic GMP in the accessory gland increases together with protein content during two weeks after the final molt. Levels are not augmented by dissection, and are independent of the presence of sperm in the seminal vesicles and of the production of spermatophores by the gland. The function of cyclic GMP in the accessory gland is not yet understood.

Cyclic nucleotide phosphodiesterases of Hyalophora cecropia silkmoth fat body.

Two soluble forms of 3':5'-cyclic-nucleotide phosphodiesterase (o':5'-cyclic-nucleotide 5'-nucleotidohydrolase, EC 3.1.4.17) were found in the larval fat body of the silkmoth Hyalophora cecropia. These differ in elution profile on Sephadex G-200, solubility in ammonium sulfate, metal ion requirements and kinetic properties. Phosphodiesterase I has Km values of 11 muM and 1.8 muM for cyclic AMP and cyclic GMP, respectively, has 5-fold greater maximal activity with cyclic AMP than with cyclic GMP, and is activated by Mg2+ and Co2+, and inhibited by EDTA. phosphodiesterase II has Km values of 625 muM and 125 muM for cyclic AMP and cyclic GMP, respectively, has similar maximal activity with both substrates, and is not activated by divalent metal ions or inhibited by EDTA. Cyclic nucleotides and methylxanthines competitively inhibit both enzymes. Phosphodiesterase is found in both soluble and particulate fractions of homogenates. Total activity is highest during the larval stage of the insect, drops markedly following pupation, and rises again during pharate adult development.

Cloning and upstream sequence of a juvenile hormone-regulated gene from the migratory locust.

As a step toward analyzing the molecular mechanism of action of juvenile hormone (JH), the gene encoding a JH-inducible 21-kDa protein (Jhp21) produced in the fat body of the migratory locust has been cloned. Four exons, representing 750 nucleotides of cDNA sequence, were found to be distributed through 13 kb of genomic DNA. Upstream 2 kb of DNA has been sequenced and three potential hormone-response elements have been identified.

Juvenile hormone binding by components of fat body cytosol from vitellogenic locusts.

Binding of 3H-labeled juvenile hormone (JH) to cytosol components of fat body from adult female Locusta migratoria, a tissue in which JH stimulates vitellogenin synthesis, has been characterized. Protein-bound JH is separated from unbound hormone with hydroxyapatite, which is found to provide a more sensitive and less variable assay than use of dextran-coated charcoal. By chromatography on DEAE-cellulose, three JH-binding components have been separated from cytosol. BP-I exhibited relatively stable binding with little degradation of the hormone, gave a Kd for JH-I by Scatchard analysis of 1.69 X 10(-8) M, and binding of JH-I was competed by JH-I and several synthetic JH analogs in an order corresponding to their JH activities. These characteristics suggest that BP-I may be a cytoplasmic JH receptor. BP-II, a minor component, also bound JH-I stably, but competition by analogs was not correlated with their hormone activity. BP-III caused rapid degradation of JH to JH acid and may be an esterase.

Juvenile hormone regulation of an insect gene: a specific transcription factor and a DNA response element.

We have used locust fat body nuclear protein extracts and upstream DNA of the juvenile hormone (JH)-inducible locust gene, jhp21, to examine the regulation of specific transcription by JH. Promoter activity was assayed with G-free cassette reporter constructs. Nuclear extracts from adult female fat body, previously exposed to JH or an analog, actively transcribe from the jhp21 promoter and a control adenovirus major late (AdML) promoter, whereas extracts from JH-deprived female fat body, or other tissues, transcribe strongly from the AdML promoter but weakly or not at all from the jhp21 promoter. Transcription is enhanced by sequences between -140 and -211 nt from the jhp21 transcription start point (tsp), which include a CAAT box, and also by sequences between -1056 and -1200. A 15-nt partially palindromic sequence element found at -1152, resembling known hormone response elements, was shown to stimulate transcription when restored to truncated jhp21 DNA. Two very similar sequences occur further upstream. In electrophoretic mobility shift assays (EMSA), the same sequence element was shown to specifically bind a protein that was present in nuclear extracts from JH-exposed, but not from JH-deprived, fat body. Several lines of evidence suggest that the DNA element may be a JH response element (JHRE). The JH-induced protein that binds to it appears to be a transcription factor that activates the initiation of JH target gene (jhp21) transcription, and could be a JH receptor.

Cloning and characterization of an ecdysone receptor cDNA from Locusta migratoria.

To facilitate studies on the hormonal control of development in the migratory locust, Locusta migratoria, we have undertaken the cloning of cDNAs for nuclear hormone receptors. Sequences obtained by polymerase chain reaction (PCR) showed homology with receptor family members including the ecdysteroid receptor (EcR). A cDNA clone corresponding to the EcR fragment includes an open reading frame of 1622 nucleotides, predicting a 59 kDa protein showing clear homology with EcRs and distinct from other classes of nuclear receptors. Northern analysis revealed a major transcript of 9.2 kb. In fifth instar fat body, the transcript was most abundant at the end of the instar when ecdysone titres are highest. There was no obvious evidence of EcR regulation by a juvenile hormone analog. Although its role in development may be similar, the locust ecdysone receptor (LmEcR) is divergent from EcRs characterized from insects belonging to the dipteran and lepidopteran orders, presumably reflecting the more ancestral sequence in the relatively primitive locust.

A locust DNA-binding protein involved in gene regulation by juvenile hormone.

Although juvenile hormone (JH) has essential roles in insect development and reproduction, the molecular mechanisms of gene regulation by JH remain an enigma. In Locusta migratoria, the partially palindromic 15-nt sequence, GAGGTTCGAG(A)/(T)CCT(T)/(C), found upstream of a JH-induced gene, jhp21, was designated as a putative juvenile hormone response element (JHRE). When JH-deprived adult female locusts were treated with the active JH analog, methoprene, a fat body nuclear factor that bound specifically to JHRE appeared after 24 h. Binding exhibited a preference for an inverted repeat with GAGGTTC in the left half-site, a single nucleotide spacer, and a right half-site in which some variation is acceptable. Binding to JHRE was abolished by phosphorylation catalyzed by a C-type protein kinase present in the nuclear extracts. The DNA-binding protein is thus believed to be a transcription factor, which is brought to an active state through the action of JH and then participates in the regulation of certain JH-dependent genes.

Sequences of elongation factors-1 alpha and -1 gamma and stimulation by juvenile hormone in Locusta migratoria.

Two cDNAs encoding the alpha and gamma subunits of translation elongation factor-1 (EF-1) have been cloned and sequenced from the African migratory locust, Locusta migratoria. Southern blotting and real-time PCR analyses indicated that these sequences represent single copy genes. Comparison with sequences from other species indicated greater conservation for EF-1 alpha than for EF-1 gamma. The developmental profiles for EF-1 alpha and -1 gamma mRNA expression in the fat body paralleled reported changes in the hemolymph juvenile hormone (JH) titer in the fifth instar and were elevated during early reproductive maturation in the female adult. In maturing adults, there was a greater accumulation of EF-1 alpha and -1 gamma transcripts in females than in males. The levels of both transcripts were greatly increased by an enriched diet, previously shown to elevate JH titers and accelerate vitellogenin production. Treating JH-deprived adult females with the JH analog, methoprene, resulted in more than doubling of transcript levels of both genes, supporting the hypothesis that JH could stimulate the accumulation of LmEF-1 alpha and -1 gamma transcripts. We suggest that production of elongation factors, increased by JH, may contribute to the massive protein synthesis required for egg production.

The use of a juvenile hormone binding protein for the quantitative assay of juvenile hormone.

The suitability of the haemolymph juvenile hormone binding protein (JHBP) of Locusta migratoria for use in a competition assay for juvenile hormone (JH) III has been investigated, and a simple quantitative assay procedure using this protein has been developed. JHBP partially purified from haemolymph of precocene treated adult locusts gives rapid and stable binding of [3H]10R-JH III, and can be separated from the unbound hormone with hydroxylapatite (HAP). The sensitivity of the method is such that 0.15 pmol (40 pg) 10R-JH III gives 50% displacement of [3H]10R-JH III from the binding protein. Competition by JH II is about 5 times less and JH I about 10 times less than that by JH III, JH III diol and acid compete at least 1000 times less strongly. A procedure for extraction and assay of JH from 50 microliters haemolymph samples is described, the interference by non-specific haemolymph components is shown to be relatively small, and some data on JH III titres in maturing adult locusts are presented.