Reporter gene introduction and transient expression in protoplasts of Porphyra yezoensis

The transient expression of foreign genes in the protoplasts of Porphyrayezoensis was examined using three recombinant vectors, pYez-Rub-GUS, pYez-Rub-GFP and pYez-Rub-LUC, which were constructed with the promoter sequence of the ribulose-bisphosphate-carboxylase / oxygenase (Rubisco) gene as a promoter and the bacterial β-glucuronidase (GUS), mutant of green fluorescent protein (S65T-GFP) and firefly luciferase (LUC) genes, respectively, as reporter genes. When the pYez-Rub-GUS was introduced into protoplasts by electroporation, cells stained dark blue by indigotin were observed after the histochemical GUS assay. GUS activity was also detected by quantitative enzyme assays with a chemiluminescent substrate. When the pYez-Rub-GFP was electroporated into protoplasts, the expression of GFP could be detected in vivo observations with fluorescence microscopy. However, the rates of gene expression cells to the total number of cells were different between the GUS and GFP genes. LUC activity was also detected by assay with a chemiluminescent substrate after the introduction of pYez-Rub-LUC into protoplasts, although the activity levels were considerably lower. Relatively high expression rates of introduced GUS genes were observed 3 to 5 days after electroporation. These results show that the promoter sequence of the chloroplast Rubisco gene functions as a promoter of foreign gene expression and that transient expression occurred in protoplasts of P. yezoensis after the introduction of foreign genes. This revised version was published online in August 2006 with corrections to the Cover Date.     

Anthocyanin biosynthesis genes location and expression in wheat–rye hybrids

Studies into gene expression in a foreign background contribute toward understanding of how genes derived from different species or genera manages to co-exist in a common nucleus, on the one hand, and help to estimate possible effectiveness of wide hybridization for cultivated plant improvement, on the other hand. The aim of this study was to investigate conservation of wheat and rye expression networks, using the anthocyanin biosynthesis pathway (ABP) genes as a model system. We isolated and analyzed ABP genes encoding enzymes acting at different steps of the pathway: chalcone-flavanone isomerase (CHI), flavanone 3-hydroxylase (F3H), anthocyanidin synthase (ANS), and anthocyanidin-3-glucoside rhamnosyltransferase (3RT). The rye ABP genes locations we determined (Chi on chromosome 5RL, F3h on 2RL, Ans on 6RL, 3Rt on 5RL, the regulatory Rc—red coleoptile—gene on 4RL) were in agreement with the rearrangements established between rye and wheat chromosomes. Expression of the ABP structural genes was studied in wheat–rye chromosome addition and substitution lines. F3h activation by the Rc gene was found to be critical for the red coleoptile trait formation. It was shown that the rye regulatory Rc gene can activate the wheat target gene F3h and vice versa wheat Rc induces expression of rye F3h. However, lower level of expression of rye F3h in comparison with that of the two wheat orthologues in the wheat–rye chromosome substitution line 2R(2D) was observed. Thus, although work of the wheat and rye ABP gene systems following the formation of wheat–rye hybrids is finely coordinated, some divergence exists between rye and wheat ABP genes, affecting level of gene expression.     

Allelic variants of the human MHC class I chain-related B gene (MICB)

 The human major histocompatibility complex (MHC) is located within a 4 megabase segment on chromosome 6p21.3. Recently, a highly divergent MHC class I chain-related gene family, MIC was identified within the class I region. The MICA and MICB genes in this family have unique patterns of tissue expression. The MICA gene is highly polymorphic, with more than 20 alleles identified to date. To elucidate the extent of MICB allelic variations, we sequenced exons 2 (α1), 3 (α2), 4 (α3), and 5 (transmembrane) as well as introns 2 and 4 of this gene in 46 HLA homozygous B-cell lines. We report the identification of eleven alleles based on seven non-synonymous, two synonymous, and four intronic nucleotide variations. Interestingly, one allele has a nonsense mutation resulting in a premature termination codon in the α2 domain. Thus, MICB appears to have fewer alleles than MICA, not unlike the allelic ratio between the HLA-C and -B loci. A preliminary linkage analysis of the MICB alleles with those of the closely located MICA and HLA-B genes revealed no conspicuous linkage disequilibrium between them, implying the presence of a potential recombination hotspot between the MICB and MICA genes. Received: 16 April 1997 / Revised: 19 May 1997     

Cloning and tissue expression of cDNAs from chromosome 5q21–22 which is frequently deleted in advanced lung cancer

Previously, we have reported that the inactivation of putative tumor-suppressor gene(s) on chromosome 5q21–22 may play an important role in the progression of lung cancer. Here, we describe the establishment of a yeast artificial chromosome (YAC) contig that spans 8–10 Mb at the 5q21–22 region. Six cosmid contigs have also been established in this YAC contig. About 35 exon-like fragments have been detected by exon-amplification, direct screening, cross-species hybridization, and searches of a database. Thus far, 14 cDNAs have been isolated, and two of them coincide with known genes, viz., cysteine dioxygenase I and geranylgeranyltransferase I. The other 12 cDNAs are considered to be novel genes. Two of these novel cDNA show partial homology to known genes, viz., semaphorin CD100 and the 28S rRNA gene. In addition, four known genes, including APC (adenomatous polyposis coli), MCC (mutated in colorectal cancer), proto-oncogene tyrosine kinase FER, and genomic imprinted gene U2AF1-RS1, have also been mapped in this contig. This large contig and expression map should prove crucial in the identification of susceptibility gene(s) related to the progression of lung cancer. Received: 27 May 1997 / Accepted: 3 September 1997     

Cassettes for seed-specific expression tested in transformed embryogenic cultures of soybean

Soybean (Glycine max [L.] Merrill) lectin is a seed protein that accumulates in protein bodies of cotyledons during seed development. We have constructed two expression cassettes containing the 5′ and 3′ regions of the soybean lectin gene connected by aNot I restriction site. One vector also contains the 32 amino acid signal sequence. Using polymerase chain reaction (PCR), the coding region of the β-glucuronidase (uidA) gene was inserted into theNot I site of each vector. We tested the function of the expression cassettes in transformed embryogenic cultures of soybean. Development-specific GUS expression was observed in developing somatic embryos transformed with the chimeric lectin promoter-GUS constructs as determined by histochemical assays. Our data indicate that these cassettes could be used to drive expression of foreign genes to modify embryo-specific traits of soybean as protein quality or quantity in the seed.     

Dengue Virus Infection of Aedes aegypti Requires a Putative Cysteine Rich Venom Protein

Dengue virus (DENV) is a mosquito-borne flavivirus that causes serious human disease and mortality worldwide. There is no specific antiviral therapy or vaccine for DENV infection. Alterations in gene expression during DENV infection of the mosquito and the impact of these changes on virus infection are important events to investigate in hopes of creating new treatments and vaccines. We previously identified 203 genes that were ≥5-fold differentially upregulated during flavivirus infection of the mosquito. Here, we examined the impact of silencing 100 of the most highly upregulated gene targets on DENV infection in its mosquito vector. We identified 20 genes that reduced DENV infection by at least 60% when silenced. We focused on one gene, a putative cysteine rich venom protein (SeqID AAEL000379; CRVP379), whose silencing significantly reduced DENV infection in Aedes aegypti cells. Here, we examine the requirement for CRVP379 during DENV infection of the mosquito and investigate the mechanisms surrounding this phenomenon. We also show that blocking CRVP379 protein with either RNAi or specific antisera inhibits DENV infection in Aedes aegypti. This work identifies a novel mosquito gene target for controlling DENV infection in mosquitoes that may also be used to develop broad preventative and therapeutic measures for multiple flaviviruses.     

Transient expression of the GUS gene in a unicellular marine green alga,<Emphasis Type="Italic">Chlorella</Emphasis> sp.<Emphasis Type="Italic">MACC/C95</Emphasis>, via electroporation

A transient expression system for a unicellular marine green alga,Chlorella sp.MACC/C95, was developed using a reporter GUS gene coded for by plasmid pBI121. The results demonstrated a high transformation efficiency could be achieved by using electroporation to deliver DNA into intact cells and the CaMV35S promoter to drive the foreign gene expression inChlorella sp.MACC/C95. The use of a carrier DNA coupled with osmosis treatment improved the transformation efficiency, while linearization of the plasmid had minor effects. Investigation of the effects of DNA concentration and growth phases ofChlorella sp.MACC/C95 on transformation efficiency indicated that the highest level of transient expression was observed when 6 μg mL⁻¹ of plasmid DNA and cells 2–6 days old were used.     

Several cis-elements including a palindrome involved in pollen-specific activity of SBgLR promoter

SBgLR (Solanum tuberosum genomic lysine-rich) is a pollen-specific gene cloned from potato (Solanum tuberosum L.). The region from −269 to −9 (The A of translation start site “ATG” as +1) of the SBgLR promoter was identified as critical for gene specific expression in pollen grains. Sequence analysis indicates a palindromic sequence “TTTCTATTATAATAGAAA” in the −227 to −209 region, in which two pollen-specific motifs TTTCT and AGAAA surround a unique putative TATA box. Moreover, nine putative pollen-specific motifs are located in the region between the TATA box and ATG. We placed the −227 to −9 region (reserving the palindrome) and the −222 to −9 region (breaking the palindrome) downstream of the CaMV35S enhancer, respectively, to construct two fusion promoters. Histochemical assays in transgenic plants demonstrated that the region from −222 to −9 is necessary and sufficient for pollen-specific expression of the uidA gene. However, the region of −227 to −9 is incapable of driving GUS expression in pollen grains and parts of vegetative tissues. A series of 5′ deletions from −269 to −9 of SBgLR promoter were constructed. A transient expression assay indicated that the region from the −227 to −9 suppressed gfp gene expression in pollen, and a positive regulatory element was present in the region of −253 to −227. The function of the palindromic sequence as a repressor inhibiting gene expression in pollen was further confirmed by the mutated promoter, breaking the palindrome by substituting its 3′-flanking five base pairs, which resumes the reporter gene expression in mature pollen.     

Evaluation of seed storage-protein gene 5′ untranslated regions in enhancing gene expression in transgenic rice seed

5′ untranslated regions (UTRs) are important sequence elements that modulate the expression of genes. Using the β-glucuronidase (GUS) reporter gene driven by the GluC promoter for the rice-seed storage-protein glutelin, we evaluated the potential of the 5′-UTRs of six seed storage-protein genes in enhancing the expression levels of the foreign gene in stable transgenic rice lines. All of the 5′-UTRs significantly enhanced the expression level of the GluC promoter without altering its expression pattern. The 5′-UTRs of Glb-1 and GluA-1 increased the expression of GUS by about 3.36- and 3.11-fold, respectively. The two 5′-UTRs downstream of the Glb-1, OsAct2 and CMV35S promoters also increased GUS expression level in stable transgenic rice lines or in transient expression protoplasts. Therefore, the enhancements were independent of the promoter sequence. Real-time quantitative RT-PCR analysis showed that the increase in protein production was not accompanied by alteration in mRNA levels, which suggests that the enhancements were due to increasing the translational efficiencies of the mRNA. The 5′-UTRs of Glb-1 and GluA-1, when combined with strong promoters, might be ideal candidates for high production of recombinant proteins in rice seeds.     

Identification, localization, and characterization of putative USP genes in barley

The universal stress proteins (USPs) play an important role in enhancing survival rate during prolonged exposure to heat shock, nutrient starvation, or stressors from agents that arrest cell growth or damage DNA structures. Searching the HarvEST database of barley resulted in 25 putative USP cDNA sequences. Of these, 16 could translate into intact proteins (putative USPs). The alignments of multiple amino acid sequences between the putative barley USPs with those of Arabidopsis and Methanococcus jannaschii resulted in a set of common residues involved in ATP-binding. The 16 putative USPs in barley and the 21 in Arabidopsis were clustered into seven groups, which were distinct from those of E. coli. The genes in these different groups have different intron/exon structures. Nine putative USP genes of barley were cloned successfully based on their sequence characteristics, and they contain two or three introns each. Two of these introns were present in all the genes, one located between β2 and α2, and the other between β4 and α4. Five sets of primers were successfully developed for these putative USP genes. Two of them were mapped on chromosome 1H and the other three were located on three different chromosomes, 2H, 3H and 6H, respectively. Expression analyses were carried out for nine of these putative USP genes. The expression for two of them was undetectable within 27 h following exposure to salt stress. Six of the other seven were expressed in both root and leaf, and the remaining one was expressed in root only. The majority of these genes was expressed more in the salt-sensitive variety, Morex, than in the more tolerant variety, Steptoe.     

Transient gene expression in rose petals via <Emphasis Type="Italic">Agrobacterium</Emphasis> infiltration

The study of gene function in roses is hampered by the low efficiency of transformation systems and the long time span needed for the generation of transgenic plants. For some functional analyses, the transient expression of genes would be an efficient alternative. Based on current protocols for the transient expression of genes via the infiltration of Agrobacterium into plant tissues, we developed a transient expression system for rose petals. We used β-glucuronidase (GUS) as a marker gene to optimize several parameters with effects on GUS expression. The efficiency of expression was found to be dependent on the rose genotype, flower age, position of petals within a flower, Agrobacterium strain and temperature of co-cultivation. The highest GUS expression was recorded in petals of the middle whirls of half-bloomed flowers from cultivars of ‘Pariser Charme’ and ‘Marvel’.     

Expression Enhancement of a Rice Polyubiquitin Gene Promoter

An 808 bp promoter from a rice polyubiquitin gene, rubi3, has been isolated. The rubi3 gene contained an open reading frame of 1140 bp encoding a pentameric polyubiquitin arranged as five tandem, head-to-tail repeats of 76 aa. The 1140 bp 5′ UTR intron of the gene enhanced its promoter activity in transient expression assays by 20-fold. Translational fusion of the GUS reporter gene to the coding sequence of the ubiquitin monomer enhanced GUS enzyme activity in transient expression assays by 4.3-fold over the construct containing the original rubi3 promoter (including the 5′ UTR intron) construct. The enhancing effect residing in the ubiquitin monomer coding sequence has been narrowed down to the first 9 nt coding for the first three amino acid residues of the ubiquitin protein. Mutagenesis at the third nucleotide of this 9 nt sequence still maintains the enhancing effect, but leads to translation of the native GUS protein rather than a fusion protein. The resultant 5′ regulatory sequence, consisting of the rubi3 promoter, 5′ UTR exon and intron, and the mutated first 9 nt coding sequence, has an activity nearly 90-fold greater than the rubi3 promoter only (without the 5′ UTR intron), and 2.2-fold greater than the maize Ubi1 gene promoter (including its 5′ UTR intron). The newly created expression vector is expected to enhance transgene expression in monocot plants. Considering the high conservation of the polyubiquitin gene structure in higher plants, the observed enhancement in gene expression may apply to 5′ regulatory sequences of other plant polyubiquitin genes.     

β-Glucuronidase gene and green fluorescent protein gene expression in de-exined pollen of Nicotiana tabacum by microprojectile bombardment

 Gene constructs containing the β-glucuronidase (GUS) gene or green fluorescent protein (GFP) gene under the control of pollen-specific promoter Zm13-260 from maize were introduced by particle bombardment into de-exined pollen of Nicotiana tabacum. The de-exined pollen exhibited transient expression of the GUS or GFP gene as indicated by histochemical and fluorescent assay, respectively. The frequency of de-exined pollen transformation with the GUS or GFP gene was approximately 6 and 3 times higher, respectively, than that of pollen with intact walls, indicating that pollen deprived of the exine barrier responded better to foreign gene transfer than did the original. Cytological observation of GUS-expressing pollen grains showed that introduced gold particles were visible in the cytoplasm and vegetative nucleus as well as in the generative nucleus. GFP-expressing pollen tubes were observed in the style even after pollination. Received: 28 October 1997 / Revision accepted: 13 April 1998