In situ hybridization mapping of a 500-kDa calcium-sensing protein gene (LRP2) to human chromosome region 2q31-->q32.1 and porcine chromosome region 15q22-->q24

Recently, a 500-kDa protein, with homology to the rat Gp330 glycoprotein, was found to be expressed on the surface of human parathyroid, placental cytotrophoblast, and renal proximal tubule cells. The protein has been implicated to function as a sensor of extracellular calcium on parathyroid and placental cytotrophoblast cells. We report here in situ hybridization mapping of the corresponding gene, designed as low-density lipoprotein receptor related protein-2 and symbolized as LRP2, to human chromosome region 2q31-->q32.1 and porcine chromosome region 15q22-->q24. The results are discussed in a comparative mapping context.

Deletion analysis of the Brassica napus cruciferin gene cru 1 promoter in transformed tobacco: promoter activity during early and late stages of embryogenesis is influenced by cis-acting elements in partially separate regions

To define sequences in the cruciferin gene cru1 promoter of importance for expression, tobacco (Nicotina tabacum L.) plants were transformed with constructs in which the cru1 promoter, in front of the intact cru1 structural gene, was truncated at -1216, -974, -736, -515, -306, -46 and -17 bp relative to the cap-site. Cru1 expression in tobacco seeds was studied by Northern analysis, Western analysis and in-situ hybridizations. Comparisons of the Northern analysis of RNA from tobacco seeds harvested at 18 d after pollination with the Western analysis of protein from mature seeds showed that the regions between -974 to -736 and -306 to -46 were important for the expression of cru1 at an early developmental stage, whereas the regions -736 to -515 and -515 to -306 were important for expression throughout embryogenesis. By investigating the mRNA levels in transgenic seeds at different stages of development, indications were obtained that the two latter regions exerted their effects during the later stages. The in-situ hybridization showed that cru1 mRNA was distributed in parenchyma cells throughout the embryo in seeds expressing constructs -974 and -736. Constructs -515 and -306 showed an expression restricted to the axis or axis and parts of the cotyledons. Sequence comparisons of the cru1 promoter with other storage-protein gene promoters, identified several motifs implicated in gene regulation.(ABSTRACT TRUNCATED AT 250 WORDS)

Characterization of rapeseed myrosinase-binding protein

Myrosinase-binding proteins (MBPs) were purified from seeds of Brassica napus L. (oilseed rape). The proteins were characterized with respect to amino-acid composition, peptide sequence and isoelectric points. Gel electrophoresis and Western blotting of protein extracts from mature seeds showed the existence of at least ten proteins reacting with a monoclonal anti-MBP antibody and ranging in molecular size from 110 to 30 kDa. Proteins other than MBP reacting with the anti-MBP antibody were assigned as myrosinase-binding protein-related proteins (MBPRPs). Two MBPRPs were purified by immunoaffinity chromatography and characterized with respect to partial amino-acid sequence. Sequence identities were found between MBP and MBPRP. Western blot analysis of protein extracts from different tissues of B. napus showed that MBPRP is present in the whole plant, whereas MBP mostly occurs in the mature seed. A double-antibody sandwich enzyme-linked immunosorbent assay (ELISA) was used to investigate the occurrence of MBP and MBPRP in developing seeds of some species in the Brassicaceae family.

Purification and characterization of an extracellular serine protease from the nematode-trapping fungus Arthrobotrys oligospora

When grown in liquid cultures allowing the formation of nematode traps, the fungus Arthrobotrys oligospora produced two extracellular proteases hydrolysing the chromogenic substrate Azocoll. The protease activity was separated into two fractions (FI and FII) using anion-exchange chromatography. In bioassays, protease(s) present in FII immobilized the free-living nematode Panagrellus redivivus indicating that the enzyme(s) might be involved in the infection of nematodes. A protease designated PII was purified from FII to apparent homogeneity by hydrophobic interaction and size-exclusion chromatography, resulting in an approximately 15-fold increase in specific activity. The purified enzyme was glycosylated, had a molecular mass of approximately 35 kDa (gel filtration) and an isoelectric point of pH 4.6. PII immobilized P. redivivus in bioassays and hydrolysed proteins of the purified cuticle. The enzyme hydrolysed several protein substrates including casein, bovine serum albumin and gelatin, but not native collagen. Examination of substrate specificity with synthetic peptides showed that PII readily hydrolysed tripeptides with aromatic or basic amino acids including N-benzoyl-L-phenylalanyl-L-valyl-L-arginine-4-nitroanilide (Bz-Phe-Val-Arg-NA) and succinyl-glycyl-glycyl-L-phenylalanine-4-nitroanilide (Suc-Gly-Gly-Phe-NA). Mono-peptides were hydrolysed at considerably slower rates. PII had an optimum activity between pH 7 and 9 and was susceptible to autodegradation. PII was inhibited by several serine protease inhibitors including phenylmethylsulfonyl fluoride (PMSF), chymostatin and antipain. The protease was N-terminally blocked, but the sequence of one internal peptide showed a high homology with a region containing the active site histidine residue of the subtilisin family of serine proteases.

A protein involved in calcium sensing of the human parathyroid and placental cytotrophoblast cells belongs to the LDL-receptor protein superfamily

Monoclonal anti-parathyroid antibodies have been utilized to isolate a single-chain glycoprotein of 500 kDa, which apparently acts as a sensor of the extracellular calcium concentration and is expressed on the surface of human parathyroid, placental, and kidney tubule cells. The present contribution reports the isolation of a cDNA clone encoding this protein in human placenta and subsequent Northern blots confirming the mRNA expression also in human parathyroid and kidney cells. Close similarity in sequence as well as in tissue distribution is demonstrated with the rat Heymann nephritis antigen, a kidney tubule glycoprotein with calcium-binding ability. The 500-kDa protein belongs to the LDL-receptor superfamily of glycoproteins, claimed to function primarily as protein receptors and characterized by functionally important calcium-binding capacity. It is proposed that the currently identified protein constitutes part of a common structure for the sensing of extracellular calcium concentrations and influences calcium homeostasis in different organs.

Simplifying genetic locus assignment of HLA-DRB genes

The DR haplotypes of the human major histocompatibility complex have been arranged in five haplotypic groups based on genomic cloning and sequence analyses. To date, the expressed DRB sequences have been assigned to four different loci: DRB1, 3, 4 and 5. DRB1 alleles are present in all haplotypes, whereas DRB3, 4 and 5 are present only in some haplotypes. Here, Göran Andersson and colleagues suggest that DRB3, 4 and 5 sequences may be treated as a single allelic series. They argue that such a model is appropriate, since DRB3, 4 and 5 sequences are inherited in an allelic fashion, have similar genomic localization, exhibit similar levels of gene expression and are, with a few rare exceptions, not present in the same haplotype.

Localization of a pernicious anaemia autoantibody epitope on the alpha-subunit of human H,K-adenosine triphosphatase

Four cDNA fragments encoding different portions of the alpha-subunit of human H,K-adenosine triphosphatase (ATPase) were amplified by means of the polymerase chain reaction technique, ligated into the plasmid pGEX-2T, and expressed as glutathione S-transferase fusion proteins in Escherichia coli. The fragments A (residues 163-313), Ba (residues 360-797), Bb (residues 526-797), and C (residues 822-1031) together encompass 77% of the alpha-subunit and cover most of its cytosolic part. The reactivities of autoantibodies in the sera from patients with pernicious anaemia with the recombinant fusion proteins were analysed by immunoblotting. One autoantigenic epitope was found in the NH2-terminal part of the Ba fragment--that is, between residues 360 and 525. No epitope was detected in the other fragments. The Ba fragment was cleaved off from the glutathione S-transferase fusion protein by the action of thrombin and was then further purified. By means of enzyme-linked immunosorbent assay, 28 of 42 sera (67%) from patients with pernicious anaemia were positive against the purified Ba fragment. The present results provide a final proof that the human H,K-ATPase alpha-subunit is a major autoantigen in the parietal cell and that the major epitope is located between residues 360 to 525 on the cytosolic side of the secretory membrane.

Cruciferin gene families are expressed coordinately but with tissue-specific differences during Brassica napus seed development

The major storage protein in seeds of Brassica napus, the 12S globulin cruciferin, is composed of three different groups of subunits; cru1, cru2/3 and cru4. By using gene family-specific probes, we have investigated the accumulation, rate of synthesis and spatial distribution of transcripts corresponding to the different groups of cruciferin subunits in developing seeds. Cruciferin transcripts derived from different gene families accumulate coordinately to comparable amounts during seed development. The corresponding gene families are, however, transcribed at different rates. Investigation of the spatial distribution of transcripts corresponding to each group of cruciferin subunits in the developing seed by in situ hybridization, revealed that mRNAs of all three types accumulate in both axis and cotyledons. Transcripts derived from cru1 and cru4 gene families show a similar cell specificity and accumulate in a similar spatial manner during seed development. In contrast, mRNAs corresponding to the cru2/3 gene family are expressed with a partly different cell specificity and show a slightly different pattern of accumulation in the axis and cotyledons, with a delayed accumulation in epidermal cells. In the cotyledons, the initial accumulation of this type of cruciferin mRNAs is also distinguished from the two other types. The differences in cell specificity are seen in the root cap and in provascular cells, where mRNAs belonging to the cru2/3 family are absent.

Differential expression of myrosinase gene families

In mature seeds of Brassica napus three major and three minor myrosinase isoenzymes were identified earlier. These myrosinases are known to be encoded by at least two different families of myrosinase genes, denoted MA and MB. In the work described in this paper the presence of different myrosinase isoenzymes in embryos, seedlings, and vegetative mature tissues of B. napus was studied and related to the expression of myrosinase MA and MB genes in the same tissues to facilitate future functional studies of these enzymes. In developing seeds, myrosinases of 75, 73, 70, 68, 66, and 65 kD were present. During seedling development there was a turnover of the myrosinase pool such that in 5-d-old seedlings the 75-, 70-, 66-, and 65-kD myrosinases were present, with the 70- and 75-kD myrosinases predominating. In 21-d-old seedlings the same myrosinases were present, but the 66- and 65-kD myrosinase species were most abundant. At flowering the mature organs of the plant contained only a 72-kD myrosinase. MA genes were expressed only in developing seeds, whereas MB genes were most highly expressed in seeds, seedling cotyledons, young leaves, and to a lesser extent other organs of the mature plant. During embryogenesis of B. napus, myrosinase MA and MB gene transcripts started to accumulate approximately 20 d after pollination and reached their highest level approximately 15 d later. MB transcripts accumulated to about 3 times the amount of MA transcripts. In situ hybridization analysis of B. napus embryos showed that MA transcripts were present predominatly in myrosin cells in the axis, whereas MB genes were expressed in myrosin cells of the entire embryo. The embryo axiz contained 75-, 70-, and 65-kD myrosinases, whereas the cotyledons contained mainly 70- and 65-kD myrosinases. Amino acid sequencing revealed the 75-kD myrosinase to be encoded by the MA gene family. The high degree of cell and tissue specificity of the expression of myrosinase genes suggests that studies of their transcription should provide interesting information concerning a complex type of gene regulation.

Deletion analysis of a 2S seed storage protein promoter of Brassica napus in transgenic tobacco

The promoter and upstream region of the Brassica napus 2S storage protein napA gene were studied to identify cis-acting sequences involved in developmental seed-specific expression. Fragments generated by successive deletions of the 5' control region of the napA gene were fused to the reporter gene beta-glucuronidase (GUS). These constructs were used to transform tobacco leaf discs. Analyses of GUS activities in mature seeds from the transformed plants indicated that there were both negatively and positively acting sequences in the napin gene promoter. Deletion of sequences between -1101 and -309 resulted in increased GUS activity. In contrast, deletion of sequences between -309 and -211 decreased the expression. The minimum sequence required for seed-specific expression was a 196 bp fragment between -152 and +44. Further 5' deletion of the fragment to -126 abolished this activity. Sequence comparison showed that a G box-like sequence and two sequence motifs conserved between 2S storage protein genes are located between -148 to -120. Histochemical and fluorometric analysis of tobacco seeds showed that the spatial and developmental expression pattern was retained in the deletion fragments down to -152. However, the expression in tobacco seeds differed from the spatial and temporal expression in B. napus. In tobacco, the napA promoter directed GUS activity early in the endosperm before any visible activity could be seen in the heart-shaped embryo. Later, during the transition from heart to torpedo stages, the main expression of GUS was localized to the embryo. No significant GUS activity was found in either root or leaf.

Characterization of the 97 and 103 kDa forms of starch branching enzyme from potato tubers

N-Terminal analysis, peptide mapping and partial peptide sequencing of the 97 and 103 kDa forms of starch branching enzyme from potato tubers showed that the two forms are highly related. A comparison with sequence data in the literature showed that these forms belong to the starch branching enzyme isoform I family. An internal cDNA fragment was obtained using PCR technology on potato tuber RNA with two oligonucleotide primers constructed from the peptide sequence data. Southern blot analysis using the PCR fragment as probe showed that there is only one gene locus encoding this isoform of the enzyme in Solanum tuberosum as well as in Solanum commersonii.

Characterization of a Brassica napus myrosinase pseudogene: myrosinases are members of the BGA family of beta-glycosidases

Myrosinase isoenzymes are known to be encoded by two different families of genes denoted MA and MB. Nucleotide sequence analysis of a Brassica napus genomic clone containing a gene for myrosinase revealed it to be a pseudogene of the MA family. The gene spans more than 5 kb and contains at least 12 exons. The exon sequence of the gene is highly similar to myrosinase cDNA sequences. However, the gene displays three potential or actual pseudogene characters. Southern blot analysis using probes from the 3' portions of the genomic and B. napus MA and MB cDNA clones showed that MA type myrosinases are encoded by approximately 4 genes, while MB type myrosinases are encoded by more than 10 genes in B. napus. Northern blots with mRNA from seeds and young leaves probed with the MA- and MB-specific probes showed that the MA and MB myrosinase gene families are differentially expressed. Myrosinases are highly similar to proteins of a beta-glycosidase enzyme family comprising both beta-glycosidases and phospho-beta-glycosidases of as diverged species as archaebacteria, bacteria, mammals and plants. By homology to these beta-glycosidases, putative active site residues in myrosinase are discussed on the basis of the similarity between beta-glycosidases and cellulases.

Purification and characterization of a surface lectin from the nematode-trapping fungus Arthrobotrys oligospora

Several studies have indicated that the capture of nematodes by the nematophagous fungus Arthrobotrys oligospora is mediated by a lectin on the fungal surface. One of the major surface proteins of this fungus showed haemagglutinating activity and was isolated by affinity chromatography using a mucin Sepharose column. Biochemical analysis showed that the protein was a dimeric glycoprotein with a molecular mass of 36 kDa and an isoelectric point of pH 6.5, and contained no sulphur amino acids. The protein was N-terminally blocked; four internal peptides were sequenced, and showed no significant similarity to sequences in the Swiss-Prot or PIR databases. The haemagglutinating activity of the isolated protein was not inhibited by any of the mono- or disaccharides tested, but it was inhibited by the glycoproteins fetuin and mucin. The haemagglutinating activity changed after incubating the protein in buffers of different pH, with maximal activity at pH 11.0 and no activity at pH 2.8. The lectin was tested for different enzymic activities but none were detected. Analysis of the haemagglutinating activity in various cell fractions indicated that the protein was associated with extracellular polymer layers and with the cell wall of the fungus. About the same amount of the haemagglutinating protein was recovered from samples of vegetative mycelium and of mycelium containing nematode-trapping cells.

Ligand-dependent secretion of rat retinol-binding protein expressed in HeLa cells

A minigene encoding rat retinol-binding protein (RBP) was transfected into HeLa cells, which do not express endogenous RBP, transthyretin, or cellular retinol-binding protein. The HeLa cells manufactured and secreted the transfected gene product, demonstrating that RBP-transthyretin assembly is not a requirement for the secretion of RBP. When HeLa cells were grown under vitamin A-deficient conditions, RBP accumulated in the endoplasmic reticulum. Both serum and retinol stimulated secretion of RBP in a concentration-dependent manner. The retinol-regulated secretion occurred also after protein synthesis had been blocked by cycloheximide. Addition of holo-RBP or retinal, but not retinoic acid, stimulated secretion of RBP. Thus, an in vitro model system that resembles the rat hepatocyte in vivo with regard to the known regulation of RBP secretion has been established in a human cell line of extrahepatic origin. It can be concluded that cellular retinol-binding protein is not required for the transfer of retinol to RBP and that the mechanism whereby retinol controls the intracellular transport of RBP is neither specific for tissues synthesizing RBP nor species-specific. To investigate the structural properties responsible for the endoplasmic reticulum retention of RBP in the absence of its ligand, a cDNA encoding chicken purpurin, a protein that is 50% identical to RBP and that binds retinol, was expressed in HeLa cells. In contrast to RBP, purpurin was not retained in vitamin A-deficient HeLa cells.

A genetically engineered purpurin/retinol-binding protein hybrid that binds to transthyretin

A mini-gene encoding rat retinol-binding protein (RBP) and a cDNA encoding chicken purpurin were separately transfected into HeLa cells. In contrast to RBP, expressed purpurin did not bind to transthyretin (TTR). A purpurin/RBP hybrid protein was constructed by substituting the cDNA sequence encoding the N-terminal 29 amino acids of purpurin for the corresponding part of RBP. The expressed hybrid molecule bound to the TTR-Sepharose. These results demonstrate that purpurin does not bind to TTR, that a functional purpurin/RBP hybrid can be constructed, and that the N-terminal coil of RBP is not required for TTR binding.

Cloning of a cDNA for rape chloroplast 3-isopropylmalate dehydrogenase by genetic complementation in yeast

Both insect and mammalian genes have previously been cloned by genetic complementation in yeast. In the present report, we show that the method can be applied also to plants. Thus, we have cloned a rape cDNA for 3-isopropylmalate dehydrogenase (IMDH) by complementation of a yeast leu2 mutation. The cDNA encodes a 52 kDA protein which has a putative chloroplast transit peptide. The in vitro made protein is imported into chloroplasts, concomitantly with a proteolytic cleavage. We conclude that the rape cDNA encodes a chloroplast IMDH. However, Southern analysis revealed that the corresponding gene is nuclear. In a comparison of IMDH sequences from various species, we found that the rape IMDH is more similar to bacterial than to eukaryotic proteins. This suggests that the rape gene could be of chloroplast origin, but has moved to the nucleus during evolution.

Distribution of napin and cruciferin in developing rape seed embryos

The distribution of napin and cruciferin, the two major storage proteins in rape seed, Brassica napus, has been visualized during seed development by antibody staining of paraffin-embedded and sectioned seeds. The results indicate that the synthesis of both proteins during embryogenesis is strictly regulated with respect to time and tissue. Although the synthesis of napin started a few days earlier than that of cruciferin, both proteins displayed similar patterns in their spatial distributions. They were first detected in the axis, then in the outer cotyledon, and finally in the cells of the inner cotyledon. Both proteins are also present in the endosperm, although in lower amounts. In germinating seeds, napin and cruciferin were rapidly degraded. Within 2 days the amounts had decreased dramatically, and after 4 days hardly any cells contained napin or cruciferin. Biochemical analyses of dissected embryos showed that, for napin as well as for cruciferin, similar levels of polypeptides were found in the axis and cotyledons.

The glucosinolate-degrading enzyme myrosinase in Brassicaceae is encoded by a gene family

A full-length cDNA clone (MB3) and three partial clones (MA1, MB1 and MB2) which encode myrosinase (thioglucoside glucohydrolase, EC 3.2.3.1) were isolated from a Sinapis alba (white mustard) cDNA library. Nucleotide sequence analysis of these clones revealed that they are encoded by a gene family. Southern blot analysis with gene-specific probes showed that the gene family consists of a least two subfamilies (MA and MB) each with several members both in S. alba and in Brassica napus (oilseed rape). In Arabidopsis thaliana (wall cress) only three myrosinase genes seem to be present. Northern blot analysis indicated that all the myrosinase mRNA species have the same size, approximately 1.95 kb.

Retinol-binding protein and transthyretin expressed in HeLa cells form a complex in the endoplasmic reticulum in both the absence and the presence of retinol

To establish a suitable experimental system for studies of the interaction of retinol-binding protein (RBP) with transthyretin (TTR) we have expressed the corresponding cDNAs in HeLa cells. To investigate whether complex formation might occur already in the endoplasmic reticulum (ER), the C-terminal ER retention signal, KDEL, was attached to TTR. The tetrameric TTR-KDEL fusion protein was retained in the ER of HeLa cells. When RBP was co-expressed with TTR-KDEL, RBP was retained intracellularly. A cDNA-encoding purpurin, a protein which is 50% identical to RBP, was then expressed together with TTR-KDEL. Purpurin was not retained intracellularly and did not bind to TTR coupled to Sepharose. The effect of the vitamin A status on the secretion of TTR and RBP was examined. While TTR expressed alone was not retained intracellularly, TTR was retained in vitamin A-deficient cells when co-expressed with RBP. Addition of retinol stimulated rapid secretion of both proteins. These results demonstrate that TTR can form a complex with RBP in the ER. The data suggest that RBP and TTR are secreted as a complex.

cDNA cloning of the beta-subunit of the human gastric H,K-ATPase

A full-length cDNA clone encoding the human gastric H,K-ATPase (EC 3.6.1.36)beta-subunit was isolated from a human gastric mucosal lambda gt10 library using oligonucleotide probes which were based on the cDNA sequence from rat and rabbit H,K-ATPase beta-subunits. The insert was 1407 bp in length and encoded a polypeptide of 291 amino acids with a MW = 33,367 Da. It exhibited 84.2%, 85.6% and 81.3% identity to the H,K-ATPase beta-subunits of rabbit, pig and rat, respectively.