Biochemical characterization of Sf9 Sp-family-like protein factors reveals interesting features.

We earlier documented the involvement of novel Sp-family-like protein factors in transcription from the Autographa californica nucleopolyhedrovirus (AcNPV) polyhedrin (polh) gene promoter [Ramachandran et al. (2001) J. Biol. Chem. 276: 23440-23449]. These zinc-dependent Sp-like factors bind to two putative Sp-factor-binding motifs, present within the AcSp sequence upstream of the polh promoter, with very high affinity (K(d) = 2.1 x 10(-12) M). Like other polh-promoter-associated host transcription factors, these Sp-like factors display tolerance to high ion concentrations up to even 3 M NaCl. An electrophoretic mobility shift assay demonstrated a probable cross-talk between the Spodoptera frugiperda (Sf9) Sp-family-like proteins and the TFIID complex. In complementary experiments, specific replacements of the Sp-factor-binding motifs with TATA-like elements resulted in expression of a luciferase reporter gene to almost the same level as that obtained with a wild-type native construct. Our results point to the possibility of the involvement of TFIID and Sf9 Sp protein interaction in transcription from the baculovirus polyhedrin promoter.

Interaction of recombinant human eIF2 subunits with eIF2B and eIF2alpha kinases.

The heterotrimeric eukaryotic initiation factor 2 (eIF2) plays a critical role in the mechanics and regulation of protein synthesis. Unlike yeast and archaeal eIF2, the purified baculovirus-expressed recombinant human eIF2 subunits used in these studies reveal that the alpha- and beta-subunits interact with each other. Consistent with this observation, the beta-subunit specifically interacts with the purified eIF2B in ELISA studies and this interaction is enhanced when wt eIF2alpha in the recombinant trimeric complex is phosphorylated or replaced by a mutant phosphomimetic eIF2alpha (S51D). These findings together with other observations raise the possibility that the beta-subunit plays a key role in the regulation and function of mammalian eIF2 complex. PERK, an eIF2alpha kinase, is found to interact with wt and mutants of eIF2alpha in which the serine 51 or 48 residue is replaced by alanine or aspartic acid thereby suggesting that the phosphorylation site in the substrate is not important for interaction. Fluorescence spectroscopic and fluorescence resonance energy transfer analyses reveal that the energy transfer occurs from PERK to eIF2alpha. The dissociation constant of alpha-subunit-PERK complex (Kd alpha-subunit) is 0.74 microM and the interaction is stoichiometric.

A locus for spondylocarpotarsal synostosis syndrome at chromosome 3p14.

Spondylocarpotarsal synostosis syndrome is a rare autosomal recessive disorder characterised by vertebral fusions, frequently manifesting as an unsegmented vertebral bar, as well as fusions of the carpal and tarsal bones. In a study of three consanguineous families and one non-consanguineous family, linkage analysis was used to establish the chromosomal location of the disease gene. Linkage analysis localised the disease gene to chromosome 3p14. A maximum lod score of 6.49 (q = 0) was obtained for the marker at locus D3S3532 on chromosome 3p. Recombination mapping narrowed the linked region to the 5.7 cM genetic interval between the markers at loci D3S3724 and D3S1300. A common region of homozygosity was found between the markers at loci D3S3724 and D3S1300, defining a physical interval of approximately 4 million base pairs likely to contain the disease gene. Identification of the gene responsible for this disorder will provide insight into the genes that play a role in the formation of the vertebral column and joints.

Shwachman-Diamond syndrome with exocrine pancreatic dysfunction and bone marrow failure maps to the centromeric region of chromosome 7.

Shwachman-Diamond syndrome (SDS) is an autosomal recessive disorder characterized by exocrine pancreatic insufficiency and hematologic and skeletal abnormalities. A genomewide scan of families with SDS was terminated at approximately 50% completion, with the identification of chromosome 7 markers that showed linkage with the disease. Finer mapping revealed significant linkage across a broad interval that included the centromere. The maximum two-point LOD score was 8.7, with D7S473, at a recombination fraction of 0. The maximum multipoint LOD score was 10, in the interval between D7S499 and D7S482 (5.4 cM on the female map and 0 cM on the male map), a region delimited by recombinant events detected in affected children. Evidence from all 15 of the multiplex families analyzed provided support for the linkage, consistent with a single locus for SDS. However, the presence of several different mutations is suggested by the heterogeneity of disease-associated haplotypes in the candidate region.

A DNA helicase from Pisum sativum is homologous to translation initiation factor and stimulates topoisomerase I activity.

DNA helicases play an essential role in all aspects of nucleic acid metabolism, by providing a duplex-unwinding function. This is the first report of the isolation of a cDNA (1.6 kb) clone encoding functional DNA helicase from a plant (pea, Pisum sativum). The deduced amino-acid sequence has eight conserved helicase motifs of the DEAD-box protein family. It is a unique member of this family, containing DESD and SRT motifs instead of DEAD/H and SAT. The encoded 45.5 kDa protein has been overexpressed in bacteria and purified to homogeneity. The purified protein contains ATP-dependent DNA and RNA helicase, DNA-dependent ATPase, and ATP-binding activities. The protein sequence contains striking homology with eIF-4A, which has not so far been reported as DNA helicase. The antibodies against pea helicase inhibit in vitro translation. The gene is expressed as 1.6 kb mRNA in different organs of pea. The enzyme is localized in the nucleus and cytosol, and unwinds DNA in the 3' to 5' direction. The pea helicase interacts with pea topoisomerase I protein and stimulates its activity. These results suggest that pea DNA helicase could be an important multifunctional protein involved in protein synthesis, maintaining the basic activities of the cell, and in upregulation of topoisomerase I activity. The discovery of such a protein with intrinsic multiple activity should make an important contribution to our better understanding of DNA and RNA transactions in plants.

Calnexin from Pisum sativum: cloning of the cDNA and characterization of the encoded protein.

A full-length cDNA of 1951 bp encoding a calnexin (CNX) protein was cloned from a Pisum sativum expression library. The open reading frame (ORF) within this cDNA encodes a 551-amino acid protein with a calculated molecular mass of 62.47 kDa that exhibits extensive homology with the CNX proteins from soybean (80%), Arabidopsis thaliana (70%), maize (70%), and dog (39%). The characteristic CNX signature motifs, KPEDWDE and GXW, generally found in molecular chaperones, are present in pea CNX (PsCNX), along with putative sites for Ca2+ binding and phosphorylation. In PsCNX, a signal sequence and a single transmembrane domain are also present at the N- and C-terminal ends, respectively. The PsCNX protein is expressed constitutively at the RNA level in vegetative and flowering tissues, as was evident from Northern analysis. Expression of PsCNX was light independent. In vitro translation of PsCNX cDNA yielded a 75-kDa precursor, which, in the presence of canine microsomal membranes, was cotranslationally processed into a 72.5-kDa product and was imported and localized to the endoplasmic reticulum. Trypsin treatment of the in vitro translated PsCNX in the presence of canine microsomes generated a further processed 67-kDa intraluminal form. The results with PsCNX also showed that the plant protein is a phosphoprotein containing phosphoserine residues, as evidenced by immunoprecipitation of PsCNX with anti-phosphoserine antibody. The PsCNX protein was also phosphorylated by endogenous kinases of pea microsomes.

Analysis of the evolutionarily conserved repeat motifs in the genome of the highly endangered central Indian swamp deer Cervus duvauceli branderi.

We have analyzed the genome of central Indian swamp deer Cervus duvauceli branderi, an inhabitant of the Kanha National Park, a wildlife conservatory in Central India, with a view to provide a genetic basis for their extinction. Evolutionarily conserved repeat sequence motifs (GATA)3.75, TA(GATA)4, (GACA)3.75, (TGG)6 and a set of mouse beta-actin primers were used to uncover the sequence variation within and between related species by employing techniques of hybridization and AP-PCR amplification. The oligo probe carrying the GACA and TGG repeat motifs was found to be positive with Cervus genome, whereas (GATA)3.75, TA(GATA)4 and beta-actin probes did not cross-hybridize with the same. AP-PCR amplification with (GACA)3.75, unlike the (TGG)6 primer, generated distinct bands in the range of 0. 37-2.10kb amongst different genomes including Cervus. A comparative genome analysis of other species using the AP-PCR approach with (GACA)3.75 primer revealed the phylogenetic status of Cervus duvauceli branderi. From the analysis of a very limited number of Cervus DNA samples, we observed a high level of genetic homogeneity that may be a prime reason for the extinction of this species. This study has implications in the context of conservation of this endangered Cervus duvauceli branderi species.

Characterization of a human alphoid satellite DNA sequence: potential use in assessing genetic diversity in Indian populations.

Sequence analysis of a human repetitive DNA sequence (pTRF5.6) revealed considerable homology (76%) to the alphoid consensus sequence. Genomic blots of StuI-digested human DNA, hybridized to pTRF5.6, generated a ladder of bands with each band corresponding to oligodeoxyribonucleotide of an approx. 170-bp repeat, indicating a tandemly arrayed organization of this repeat element within the genome. Genomic hybridization analyses of unrelated individuals belonging to various geographical regions of India, using this alphoid satellite prove, revealed polymorphic bands ranging between 2 and 9 kb. Along with an individual-specific band pattern, several isomorphic bands below 2 kb were also evident. There was very little genetic variability between populations, suggestive of low polymorphism at the inter-population level. Our result suggest that alphoid satellite sequence probe can be used in assessing the genetic diversity of various ethnic groups/populations belonging to different geographical regions.

Highly repetitive DNA sequence elements from Orseolia oryzae (Wood-Mason) discriminate between the Indian isolates and the Asian rice gall midge and the paspalum midge.

We described multicopy DNA clones isolated from a partial genomic library of Orseolia oryzae, based on reverse genomic hybridization, suitable for studying genetic variation in the Asian rice gall midge and other isomorphic species. Three clones produced monomorphic DNA band patterns between biotypes of O. oryzae but polymorphic patterns were produced between O. oryzae and O. fluvialis, the paspalum midge. These probes detect changes in the repetitive sequence structure between species and constitute the first genetic markers for distinguishing between field isolates of rice gall midge and related species of Orseolia. These will be useful in identifying and perhaps eradicating alternative hosts for this pest, and detecting early-season outbreaks of O. oryzae from light trap collections.

A multicopy DNA sequence from Meconopsis simplicifolia discriminates between the different species of this endangered Himalayan poppy.

Clones harboring multicopy DNA sequences were isolated on the basis of reverse genome hybridization to Meconopsis paniculata (Himalayan yellow poppy) DNA from a Sau3A partial genomic plasmid library of M. simplicifolia (Himalayan blue poppy). Restriction-endonuclease-dependent genetic polymorphism between five species of Meconopsis, M. aculeata, M. paniculata, M. simplicifolia, M. sinuata and M. villosa, belonging to geographically isolated populations, was evident in genomic DNA filter hybridizations when probed with a clone (pIMS10) isolated from this library. Pooled DNA from seedlings originating from plants of individual populations of M. paniculata, M. simplicifolia and M. villosa gave similar band patterns, with respect to a given enzyme, suggesting intra-population genetic homogeneity.

Characterization of a DNA sequence that detects repetitive DNA elements in the Asian rice gall midge (Orseolia oryzae) genome: potential use in DNA fingerprinting of biotypes.

We have isolated based on reverse genome hybridization, and sequenced a DNA clone, pNZE25, from a partial genomic library of the Asian rice gall midge Orseolia oryzae (Wood-Mason) (O.o.). Clone pNZE25 is highly A+T rich (67%), lacks any open reading frame and does not display homology to sequences in GenBank. Clone pNZE25 detects a 120-bp repeat in the O.o. genome, as seen from the generation of a 120-bp ladder after Southern analysis of HinfI-digested genomic DNA. When used to probe O.o. genomic DNA digested with DraI, HaeIII or AluI, pNZE25 generates individual specific DNA fingerprints on target DNA isolated from gall midge biotypes collected from different parts of India.

Beta-subunit of human chorionic gonadotropin hormone and firefly luciferase simultaneously synthesized in insect cells using a recombinant baculovirus are differentially expressed and transported.

A recombinant baculovirus vAc beta hCG-luc was constructed that carried the cDNAs encoding firefly luciferase (luc) and beta-subunit of human chorionic gonadotropin (beta hCG) placed under the transcriptional control of individual copies of the baculovirus polyhedrin gene promoter. The simple, rapid, and sensitive detection of LUC expression was used for selecting recombinant viruses that simultaneously expressed beta hCG, which was identical in all respects to that synthesized using a recombinant baculovirus carrying the beta hCG gene alone. Immunofluorescence staining of virus-infected cells using anti-LUC antibodies revealed that LUC, a nonglycosylated, intracellular protein was retained within the cells whereas beta hCG, an extensively glycosylated, secretory protein, was processed and secreted into the culture medium. LUC and beta hCG were both immunoreactive on Western blot. beta hCG was bioactive, as evident from its ability to associate with alpha hCG and bind with the receptor and produce testosterone in an in vitro mouse Leydig cell assay system. Comparison of recombinant LUC and beta hCG synthesized by the virus-infected insect cells surprisingly revealed that the level of the former was quantitatively higher by at least 10-fold than the latter. A blot of total RNA isolated from vAc beta hCG-luc-infected insect cells, when probed with probes corresponding to the 3' region of the beta hCG or luc genes, indicated differential transcription of the two genes. Computer-aided sequence analysis indicated extensive secondary structure and stem-loop complex-forming potential of the beta hCG gene, which could be responsible for the transcriptional difference observed.

A novel probe for human DNA fingerprinting based on chi-like sequences.

A synthetic oligodeoxyribonucleotide (oligo) containing crossover initiating hotspot-like sequences was designed on the assumption that hypervariability is partly due to the presence of molecular signals which promote recombination. This oligo, when used as a probe for human DNA fingerprinting, generated individual-specific DNA band patterns. The probability of two unrelated individuals having the same DNA band pattern, using this probe, was estimated to be 1.9 x 10(-13).

Direct in-gel hybridization, without blotting, using nick-translated cloned DNA probe.

Hybridization of DNA and RNA to labeled probes is central to molecular biology. A method is described here for hybridization of cloned DNA probes directly to DNA in agarose gels. This in-gel hybridization method has several advantages over conventional techniques using transfer to membranes. It is extremely rapid, highly sensitive, less expensive and particularly suited for high molecular weight genomic DNA analysis.

Molecular cloning of human satellite DNA sequences and their use in detecting DNA polymorphism.

A approximately 400 bp HaeIII human genomic satellite DNA band was cloned into pUC18 to construct a partial library. A fragment of bacteriophage M13 containing a sequence homologous to the human minisatellite core was cloned in pUC18 and was used as a probe to isolate a approximately 350 bp human satellite clone (pTRF5.6) from the partial library. Other clones from this library showed a wide variation in terms of size and hybridization to the pTRF5.6 clone. Human DNA from different individuals was digested with restriction enzymes, Southern transferred and probed with TRF5.6. Individual-specific complex pattern of DNA bands was produced. TRF5.6, therefore, could be useful as a probe for detecting genetic polymorphism.

The nucleolar RNA-binding protein B-36 is highly conserved among plants.

The nucleolar protein B-36 is an RNA-associated protein which has a number of properties in common with pre-mRNA-binding proteins (hnRNP proteins). Like the hnRNP proteins, B-36 appears to be evolutionarily conserved among various eukaryotes (protists and several animal species). The conservation of B-36 throughout the plant kingdom has been investigated using a panel of nine monoclonal antibodies previously shown to recognize a minimum of four different epitopes in Physarum B-36, the protein used to generate the monoclonal antibodies. Two of the epitopes (I and III) are widely conserved in 34 kDa proteins (presumably B-36 homologues) from the various species tested (Chlamydomonas, moss, fern, oat, onion, carrot, and bean). Using immunofluorescence localization in moss and carrot protoplasts, the cross-reacting proteins were shown to be restricted to the nucleolus, further confirming their probable homology to B-36. Epitopes I and III are also unique to the B-36 homologues as demonstrated by the failure of any other bands to cross-react. Another epitope (IV) was specifically recognized in the plant B-36 homologues but exhibited greatly reduced affinity for the monoclonal antibody relative to Physarum B-36. The remaining epitope (II), unlike the others, exhibited variable conservation in the plant B-36 homologues and, in addition, was present in several other seemingly unrelated proteins. Finally, several of the plant species exhibited two cross-reacting variants at roughly the 34 kDa position and in at least one of these cases a single monoclonal antibody was able to distinguish between the two variants, a result indicating that the variants do have bona fide structural differences.(ABSTRACT TRUNCATED AT 250 WORDS)