Isolation of four heat shock protein cDNAs from grapefruit peel tissue and characterization of their expression in response to heat and chilling temperature stresses

In order to continuously supply horticultural products for long periods, it is essential to store them after harvest in low temperatures. However, many tropical and subtropical fruits and vegetables, such as citrus, are sensitive to chilling. In previous studies, the authors have shown that a short hot water rinsing treatment (at 62°C for 20 s) increased chilling tolerance in grapefruit. In order to gain more insight into the molecular mechanisms involved in heat‐induced chilling tolerance, PCR cDNA subtraction analysis was performed which isolated four different PCR fragments whose expression was enhanced 24 h after the heat treatment, and that showed high sequence homology with various plant HSP18‐I, HSP18‐II, HSP22 and HSP70 genes. It was found that the short hot water treatment given at 62°C for 20 s, but not at lower temperatures of 20 or 53°C, increased the expression of the various HSP cDNAs in grapefruit peel tissue. However, when the fruits were kept at ambient temperatures, the increases in HSP mRNA levels following the hot water treatment were temporary and lasted only between 6 and 48 h. Similar temporary increases in the HSP mRNA levels were detected following exposure of the fruit to a hot air treatment at 40°C for 2 h. Nevertheless, when the fruits were treated with hot water but afterwards stored at chilling temperatures of 2°C, the mRNA levels of the various HSP18‐I, HSP18‐II, HSP22 and HSP70 cDNAs increased and remained high and stable during the entire 8‐week cold‐storage period, suggesting their possible involvement in heat‐induced chilling‐tolerance responses. The chilling treatment by itself increased the expression of the HSP18‐I cDNA, but had no effect on the mRNA levels of any of the other HSP cDNAs. Exposure of fruit to other stresses, such as wounding, UV irradiation, anaerobic conditions and exposure to ethylene, had no effect on the expression of the various HSPs. Overall, the study explored the correlation between the expression and persistence of various HSP cDNAs in grapefruit peel tissue during cold storage, on the one hand, and the acquisition of chilling tolerance, on the other hand, and the results suggest that HSPs may play a general role in protecting plant cells under both high‐ and low‐temperature stresses.     

Isolation and characterization of a novel dehydrin gene from Capsella bursa-pastoris

A novel dehydrin gene designated as Cbcor29 was cloned from Capsella bursa-pastoris by rapid amplification of cDNA ends (RACE) and genome walker technique. The full-length cDNA of Cbcor29 was 1101 bp long with a 783 bp open reading frame (ORF), encoding a putative protein of 261 amino acids. Like other dehydrin proteins, CbCOR29 contained a high percentage of charged and polar amino acids, in which Cys and Trp amino acids were absent. Besides, predicted CbCOR29 protein possesses three conserved repeats of the characterized Lys-rich domains (K-segments), and a Ser-rich domain (S-segment) prior to the first Lys-rich domain, which presented a typical SK3 structure of dehydrins. Analysis of Cbcor29 genomic DNA revealed that it contained 2 exons and 1 intron, which was a typical character of dehydrin genes. Subsequent bioinformatic analysis also showed that the sequence of CbCOR29 had high homology with other dehydrin proteins, especially with cor47 from Arabidopsis thaliana. Moreover, semi-quantitative RT-PCR revealed that the expression of Cbcor29 could be induced by exposure to drought, low-temperature, NaCl and exogenous ABA treatment respectively. Our study implied that the Cbcor29 gene was a new member of the dehydrin gene family and might exert functions in drought-, cold- and salt- responsiveness in Capsella bursa-pastoris.     

Isolation and characterization of a novel dehydrin gene from Capsella bursa-pastoris

A novel dehydrin gene designated as Cbcor29 was cloned from Capsella bursa-pastoris by rapid amplification of cDNA ends (RACE) and genome walker technique. The full-length cDNA of Cbcor29 was 1101 bp long with a 783 bp open reading frame (ORF), encoding a putative protein of 261 amino acids. Like other dehydrin proteins, CbCOR29 contained a high percentage of charged and polar amino acids, in which Cys and Trp amino acids were absent. In addition, the predicted CbCOR29 protein possesses three conserved repeats of the characterized Lys-rich domains (K-segments), and a Ser-rich domain (S-segment) prior to the first Lys-rich domain, which presented a typical SK3 structure of dehydrins. Analysis of Cbcor29 genomic DNA revealed that it contains 2 exons and 1 intron, which is a typical character of dehydrin genes. Subsequent bioinformatic analysis also showed that the sequence of CbCOR29 has high homology with other dehydrin proteins, especially with cor47 from Arabidopsis thaliana. Moreover, semi-quantitative RT-PCR revealed that the expression of Cbcor29 can be induced by exposure to drought, low temperature, NaCl, and exogenous ABA treatment. Our study led to the conclusion that the Cbcor29 gene is a new member of the dehydrin gene family and might exert functions in responsiveness to drought, cold, and salt in Capsella bursa-pastoris. Published in Russian in Molekulyarnaya Biologiya, 2006, Vol. 40, No. 1, pp. 52–60. The article was submitted by the authors in English.     

Isolation of a phosphomonoesterase from human platelets that specifically hydrolyzes the 5-phosphate of inositol 1,4,5-trisphosphate

Platelets, and a variety of other cells, rapidly hydrolyze the phosphoinositides in response to stimulation by agonists. One of the products of hydrolysis of phosphatidylinositol 4,5-diphosphate is inositol 1,4,5-trisphosphate, which recently has been suggested to mediate intracellular Ca2+ mobilization. We have found that human platelets contain an enzyme that degrades inositol 1,4,5-trisphosphate. We have isolated this soluble enzyme and find that it hydrolyzes the 5-phosphate of inositol 1,4,5-trisphosphate (Km = 30 microM, Vmax = 5.3 microM/min/mg of protein). The products of the reaction are inositol 1,4-diphosphate and phosphate. The apparent molecular weight of the enzyme is 38,000 as determined both by gel filtration and by sodium dodecyl sulfate-polyacrylamide gel electrophoresis in the presence and absence of 2-mercaptoethanol. This enzyme is specific for inositol 1,4,5-trisphosphate. Other water soluble inositol phosphates as well as phosphorylated sugars are not hydrolyzed, while the only inositol containing phospholipid hydrolyzed is phosphatidylinositol 4,5-diphosphate at a rate less than 1% that for inositol 4,5-trisphosphate. The inositol 1,4,5-trisphosphate 5-phosphomonoesterase requires Mg2+ for activity and is inhibited by Ca2+, Ki = 70 microM. Li+, up to 40 mM, has no effect on enzyme activity. The duration and magnitude of any inositol 1,4,5-trisphosphate response in stimulated platelets may be determined by the activity of this enzyme.     

Isolation and characterization of a cDNA encoding a potential morphogen from the marine sponge Geodia cydonium that is conserved in higher metazoans.

Species belonging to the lowest metazoan phylum, the sponges (Porifera), exhibit a surprisingly complex and multifaceted Bauplan (body plan). Recently, key molecules have been isolated from sponges which demonstrate that the cells of these animals are provided with characteristic metazoan adhesion and signal transduction molecules, allowing tissue formation. In order to understand which factors control the spatial organization of these cells in the sponge body plan, we screened for a cDNA encoding a soluble modulator of the behaviour of endothelial cells. A cDNA encoding a putative protein, which is highly similar to the human and mouse endothelial monocyte-activating polypeptide (EMAP) II has been isolated from a library of the marine sponge Geodia cydonium. The sponge EMAP-related polypeptide (EMAPR) has been termed EMAPR1_GC. The full-length cDNA clone, GCEMAPR1, has a size of 592 nucleotides (nt) and contains a 447 nt-long potential open reading frame; the molecular weight (MW) of the deduced amino acid sequence, 16,499 Da, is close to that of mature mammalian EMAP II (ca. 18 kDa). The sponge polypeptide is also closely related to a deduced polypeptide from the cosmid clone F58B3 isolated from Caenorhabditis elegans. A phylogenetic analysis revealed that the sponge and the nematode EMAPR molecules form a cluster which is significantly separated from the corresponding mammalian EMAP molecules. The function of the first cloned putative soluble modulator of endothelial cells in sponges remains to be determined.     

Isolation and characterization of a novel cDNA clone encoding a homeodomain that is developmentally regulated in the ventral forebrain.

A complementary DNA, Tes-1, of a novel homeodomain protein has been cloned, and its pattern of expression has been characterized. It is a structural homolog of Distal-less, a homeodomain-encoding gene in D. melanogaster. Its expression is developmentally regulated and is limited to structures in the head. Within the central nervous system of the midgestation mouse embryo, it is expressed exclusively in the ventral forebrain. It is likely that Tes-1 plays a regulatory role in the development of this complex neural structure.     

Molecular cloning and analysis of a pea cDNA that is expressed in darkness and very rapidly induced by gibberellic acid

Using cDNA representational difference analysis (cDNA RDA), we isolated a cDNA named GDA-1 from a cDNA library constructed with mRNA from short-day (SD) grown G2 pea apical tissue. The amino acid sequence deduced from GDA-1 shares partial identity with the B2 protein which is expressed during embryogenesis of carrot cells. Northern analysis showed that GDA-1 mRNA is abundant in SD-grown G2 pea apical buds. In long-day (LD) conditions, there was almost no detectable GDA-1 mRNA. When LD-grown G2 peas were kept in continuous darkness for 24 h, the GDA-1 mRNA content reached a level equivalent to about 50% of that in the SD samples. On the other hand, when SD-grown peas were transferred into the light for 24 h, the amount of hybridizable GDA-1 mRNA dropped to the same as that of LD-grown plants. GDA-1 expression was found to be independent of flower initiation time. GA₃ application in vitro resulted in rapid accumulation of GDA-1 mRNA in LD-grown G2 pea apical buds, which is compatible with its delaying effect on apical senescence. Time-course experiments revealed that GDA-1 is induced within 15 min of GA₃ application. Exogenous GA₃ did not influence the expression of GDA-1 in SD-grown G2 peas. Since both photoperiod and GA induce the expression of GDA-1, we speculate that they may activate similar signal transduction pathways in G2 peas. Our work also shows that photoperiod may change the efficiency of gibberellin perception by plants. Received: 27 March 1998 / Accepted: 2 June 1998     

Identification of a grapefruit cDNA belonging to a unique class of citrus dehydrins and characterization of its expression patterns under temperature stress conditions

Citrus fruits are sensitive to low temperatures and this often results in the development of chilling injuries during postharvest storage. In order to gain more insight into the molecular mechanisms involved in the acquisition of fruit chilling tolerance, we initiated a grapefruit ( Citrus paradisi, cv. Marsh Seedless) flavedo cDNA sequencing project and used it to identify a cDNA similar to other Poncirus trifoliata and Citrus unshiu dehydrin genes reported to be responsive to low temperatures. The grapefruit dehydrin cDNA, designated cor15 , encodes a predicted polypeptide of 15.1 kDa, that is almost completely identical with other reported citrus dehydrin proteins, except that it contains two large amino acid repeats, whereas P. trifoliata COR11 has only one such repeat and P. trifoliata COR19 and C. unshiu COR19 have three repeats. Together, the various grapefruit, P. trifoliata and C. unshiu dehydrins form a closely related and unique dehydrin gene family that differs from most other plant dehydrins in having an unusual K-segment similar to that of gymnosperms and in having a serine cluster (S-segment) at an unusual position at the carboxy-terminus. The grapefruit cor15 gene is consistently expressed in the fruit peel tissue at harvest, but its message levels dramatically decrease during storage at 2°C. However, a pre-storage hot water treatment, which enhances fruit chilling tolerance, elicited retention of the constant level of cor15 gene expression during cold storage and eliminated its decline. The hot water treatment had no inductive effect on cor15 gene expression when the fruit were held at non-chilling temperatures. The effects of other stresses, such as exposure to ethylene, UV irradiation and wounding, on cor15 gene expression, were temporary and persisted for 1-2 days after the treatments.