Cooperation between the chloroplast psbA 5′‐untranslated region and coding region is important for translational initiation: the chloroplast translation machinery cannot read a human viral gene coding region

Chloroplast mRNA translation is regulated by the 5′‐untranslated region (5′‐UTR). Chloroplast 5′‐UTRs also support translation of the coding regions of heterologous genes. Using an in vitro translation system from tobacco chloroplasts, we detected no translation from a human immunodeficiency virus tat coding region fused directly to the tobacco chloroplast psbA 5′‐UTR. This lack of apparent translation could have been due to rapid degradation of mRNA templates or synthesized protein products. Replacing the psbA 5′‐UTR with the E. coli phage T7 gene 10 5′‐UTR, a highly active 5′‐UTR, and substituting synonymous codons led to some translation of the tat coding region. The Tat protein thus synthesized was stable during translation reactions. No significant degradation of the added tat mRNAs was observed after translation reactions. These results excluded the above two possibilities and confirmed that the tat coding region prevented its own translation. The tat coding region was then fused to the psbA 5′‐UTR with a cognate 5′‐coding segment. Significant translation was detected from the tat coding region when fused after 10 or more codons. That is, translation could be initiated from the tat coding region once translation had started, indicating that the tat coding region inhibits translational initiation but not elongation. Hence, cooperation/compatibility between the 5′‐UTR and its coding region is important for translational initiation.     

Regeneration of herbicide resistant transgenic rice plants following microprojectile-mediated transformation of suspension culture cells

Summary Suspension cells of Oryza sativa L. (rice) were transformed, by microprojectile bombardment, with plasmids carrying the coding region of the Streptomyces hygroscopicus phosphinothricin acetyl transferase (PAT) gene (bar) under the control of either the 5 region of the rice actin 1 gene (Act1) or the cauliflower mosaic virus (CaMV) 35S promoter. Subsequently regenerated plants display detectable PAT activity and are resistant to BASTA^TM, a phosphinothricin (PPT)-based herbicide. DNA gel blot analyses showed that PPT resistant rice plants contain a bar-hybridizing restriction fragment of the expected size. This report shows that expression of the bar gene in transgenic rice plants confers resistance to PPT-based herbicide by suppressing an increase of ammonia in plants after spraying with the herbicide.     

High-efficiency transformation of Arabidopsis thaliana with a selectable marker gene regulated by the T-DNA 1' promoter

Two selectable marker genes harbouring the bar coding region but differing in their promoters were compared in an Arabidopsis thaliana transformation assay using in planta infiltration with Agrobacterium tumefaciens. Surprisingly, in four Arabidopsis ecotypes examined, the 1′ promoter from the right T-DNA was superior to the most commonly used 35S promoter of cauliflower mosaic virus (CaMV). The ecotype Wassilewskija gave the highest transformation frequencies, with an average of between 5.3 and 6.3 % of the seedlings subjected to the selection. This is approximately 30-fold higher than previously reported results. Analysis of T-DNA integration patterns in single transformed plants or pooled populations revealed independent T-DNA integration events in each case. Results show that the 1′ promoter is an attractive alternative to the 35S promoter for the generation of T-DNA insertion lines. The 1′ promoter may be especially beneficial for the secondary transformation of transgenic strains containing the 35S promoter to exclude homology-mediated gene silencing.     

Sexually dimorphic expression and regulatory sequence of dnali1 in the olive flounder Paralichthys olivaceus

Dynein axonemal light intermediate chain 1 (dnali1) is an important part of axonemal dyneins and plays an important role in the growth and development of animals. However, there is little information about dnali1 in fish. Herein, we cloned dnali1 gene from the genome of olive flounder (Paralichthys olivaceus), a commercially important maricultured fish in China, Japan, and Korea, and analyzed its expression patterns in different gender fish. The flounder dnali1 DNA sequence contained a 771 bp open reading frame (ORF), two different sizes of 5′ untranslated region (5′UTR), and a 1499 bp 3′ untranslated region (3′UTR). Two duplicated 922 nt fragments were found in dnali1 mRNA. The first fragment contained the downstream coding region and the front portion of 3′UTR, and the second fragment was entirely located in 3′UTR. Multiple alignments indicated that the flounder Dnali1 protein contained the putative conserved coiled-coil domain. Its expression showed sexually dimorphic with predominant expression in the flounder testis, and lower expression in other tissues. The gene with the longer 5′UTR was specifically expressed in the testis. The highest expression level in the testis was detected at stages IV and V. Transient expression analysis showed that the 922 bp repeated sequence 3′UTR of dnali1 down-regulated the expression of GFP at the early stage in zebrafish. The flounder dnali1 might play an important role in the testis, especially in the period of spermatogenesis, and the 5′UTR and the repetitive sequences in 3′UTR might contain some regulatory elements for the cilia.

     

Regeneration of fertile transgenic tall fescue plants with a stable highly expressed foreign gene

One hundred and seventeen green tall fescue plants and 37 albino plants were regenerated from a glufosinate ammonium resistant callus clone co-transformed with the bar gene and the gusgene, both driven by the rice actin 1 promoter. The gus gene was not detectable in regenerated plants but the presence of the bar gene in these plants was detected by the polymerase chain reaction and integration of the bar gene into the genome by Southern blot hybridization. A high and stable expression of the bar gene was evident from the assay for phosphinothricin-N-acetyltransferase activity and from spraying plants with glufosinate ammonium herbicide. There was no detectable variation with respect to the level of bar gene expression among these plants. However, no inheritance of the bar gene was found in two populations of outcrossed progenies. This revised version was published online in June 2006 with corrections to the Cover Date.     

The Structure of the Chloramphenicol Resistance Gene on a Transferable R Plasmid from the Fish Pathogen,Pasteurella piscicida

The chloramphenicol resistance gene (pp-cat) was cloned from a transferable R plasmid of Pasteurella piscicida, pSP9351, and the sequence of the gene was determined. Subcloning and deletion analysis localized the resistance gene, pp-cat, to within a 2.3 kb HincII-BamHI fragment. The fragment as a probe hybridized with the type I chloramphenicol acetyltransferase (CAT) gene and did not hybridize to CAT types II, III, and CAT-VA. The fragment hybridized to transferable R plasmids encoded with resistance to chloramphenicol, which were detected from P. piscicida isolated in different years. Nucleotide sequences of the coding and flanking regions of pp-cat (2031 bp) identified an open reading frame coding type I CAT of a molecular mass of about 25,000 Da. Comparison analysis of the sequences outside the cat open reading frame showed also that pp-cat has homology, in part, with the gene that coding for the endonuclease EcoRII and those that flank the cat gene derived from the Acinetobacter baumannii chromosome.     

Co-transformation of gene expression cassettes via particle bombardment to generate safe transgenic plant without any unwanted DNA

The presence of resistant selectable marker genes and other added DNAs such as the vector backbone sequence in transgenic plant might be an unpredictable hazard to the ecosystem as well as to human health, which have affected the safe assessment of transgenic plants seriously. Using minimal gene expression cassette (containing the promoter, coding region, and terminator) without vector backbone sequence for particle bombardment is the new trend of plant genetic transformation. In the present paper, we co-transformed the selectable marker bar gene cassette and non-selected cecropinB gene cassette into rice (Oryza sativa L.) by particle bombardment, then eliminated the selectable marker bar gene in R₁ generation applying the hereditary segregation strategy and attained two safe transgenic plants only harboring cecropinB gene cassettes without any superfluous DNA. This is the fist report indicating that the combination of minimal gene cassettes transformation with the co-transformation and segregation strategy can generate selectable marker-free transgenic plants, which will promote the advancement in plant genetic engineering greatly.     

Dependence of expression of an inducible Staphylococcus aureus cat gene on the translation of its leader sequence

Summary The gene for chloramphenicol (Cm) acetyltransferase (CAT) carried by the staphylococcal plasmid pUB112, whose expression can be stimulated by Cm, is preceded by a regulatory region containing two control elements. One of these consists of a Shine-Dalgarno (SD) sequence followed by an open reading frame coding for a leader peptide of nine amino acids. Previous work has shown that the SD sequence is essential for inducibility of Cm resistance by the antibiotic (Brückner and Matzura 1985). Here we demonstrate that fusion of the leader peptide coding sequence to a truncated 'lacZ gene results in synthesis of a leader peptide--galactosidase fusion protein. Introduction of an ochre nonsense codon into the reading frame of the leader peptide sequence leads to considerable reduction of the basal expression and loss of inducibility of the cat gene. These results reveal that synthesis of the leader peptide is required for the basal and inducible expression of the cat gene and support the model of translational attenuation for its regulation.     

Bicistronic expression strategy for high‐level expression of recombinant proteins in Corynebacterium glutamicum

Directly using the promoter associated with 5′‐untranslated region of a high‐protein‐abundance gene from the genome may cause low expression activity of an expression system. A bicistronic expression part containing the short 5′ coding sequence of the source gene and an embedded Shine–Dalgarno sequence can cause higher expression levels of the recombinant gene in a bicistronic cassette. Here, we evaluated two methods to construct expression parts and exploited genomic sequence sources to provide specific functional sequences to complete the expression system. The architecture of the bicistronic part increased the expression levels of target genes and performed more reliably than conventional expression parts with the same promoter and 5′ untranslated region. For Corynebacterium glutamicum, the strongest bicistronic part, HP‐BEP4, was obtained from a heterologous sequence source, leading to a 2.24‐fold increase in the expression level of fluorescent protein over constitutively expressed pXMJ19 or the production of more than 100 mg/L single‐chain variable fragment (scFv). It could meet the needs of overexpressing key genes in C. glutamicum.     

5'‐ and 3'‐sequences of satellite tobacco necrosis virus RNA promoting translation in tobacco

The RNA of satellite tobacco necrosis virus (STNV) is a monocistronic messenger that lacks both a 5′ cap and a 3′ poly(A) tail. The STNV trailer contains an autonomous translational enhancer domain (TED) that promotes translation in vitro by more than one order of magnitude when combined with the 5′-terminal 173 nt of STNV RNA. We now show that the responsible sequence within the 5′ region maps to the first 38 nt of the STNV RNA. Mutational analysis indicated that the primary sequence of the STNV 5′ 38 nt and TED is important for translation stimulation in vitro, but did not reveal a role for the complementarity between the two. Translation of chimeric STNV-cat RNAs in tobacco protoplasts showed that TED promotes translation in vivo of RNAs lacking a cap and/or a poly(A) tail. Similar to in vitro, TED-dependent translation in tobacco was stimulated further by the STNV 5′ 38 nt.     

Mechanism of regulating the expression of λN gene by ribosomal protein at translational level

In ribosomal protein S12 mutant or L24 mutant the expression of λN gene was depressed at translational level. To study its mechanism the λN gene region of λN -lacZ gene fusion was trimmed from its 5′ end to 3′ end with DNA exonuclease III (DNA cxoIII) in order to alter the TIR (translational initiation region) and the ding region of λN gene. After DNA sequencing 23 species of different λN-lacZ fused genes were obtained. The β-galactosidase activities of these deletants in ribosomal protein mutant were compared with that in wild type strain. The result indicated that (i) S12 mutant could affect 305 subunit’s binding to the TIR of λN gene messenger and cause the difficulty in forming 30s initiation complex and then decrease the efficiency of translational initiation; (ii) in S12 mutant the coding region of λN gene alw affected the expression λN gene; (iii) in L24 mutant the inhibition of λN gene expression was not related to translational initiation and the 5′ end of the coding region of λN gene, but related to the 3′ end of λN gene.