Monitoring the colonization of sugarcane and rice plants by the endophytic diazotrophic bacterium Gluconacetobacter diazotrophicus marked with gfp and gusA reporter genes

Aims: To evaluate the colonization process of sugarcane plantlets and hydroponically grown rice seedlings by Gluconacetobacter diazotrophicus strain PAL5 marked with the gusA and gfp reporter genes. Methods and Results: Sugarcane plantlets inoculated in vitro with PAL5 carrying the gfp::gusA plasmid pHRGFPGUS did not present green fluorescence, but β‐glucuronidase (GUS)‐stained bacteria could be observed inside sugarcane roots. To complement this existing inoculation methodology for micropropagated sugarcane with a more rapid colonization assay, we employed hydroponically grown gnotobiotic rice seedlings to study PAL5–plant interaction. PAL5 could be isolated from the root surface (10⁸ CFU g^?1) and from surface‐disinfected root and stem tissues (10⁴ CFU g^?1) of inoculated plants, suggesting that PAL5 colonized the internal plant tissues. Light microscopy confirmed the presence of bacteria inside the root tissue. After inoculation of rice plantlets with PAL5 marked with the gfp plasmid pHRGFPTC, bright green fluorescent bacteria could be seen colonizing the rice root surface, mainly at the sites of lateral root emergence, at root caps and on root hairs. Conclusion: The plasmids pHRGFPGUS and pHRGFPTC are valid tools to mark PAL5 and monitor the colonization of micropropagated sugarcane and hydroponic rice seedlings. Significance and Impact of the Study: These tools are of use to: (i) study PAL5 mutants affected in bacteria–plant interactions, (ii) monitor plant colonization in real time and (iii) distinguish PAL5 from other bacteria during the study of mixed inoculants.     

Revealing constitutively expressed resistance genes in Agrostis species using PCR-based motif-directed RNA fingerprinting

Agrostis species are mainly used in athletic fields and golf courses. Their integrity is maintained by fungicides, which makes the development of disease-resistance varieties a high priority. However, there is a lack of knowledge about resistance (R) genes and their use for genetic improvement in Agrostis species. The objective of this study was to identify and clone constitutively expressed cDNAs encoding R gene-like (RGL) sequences from three Agrostis species (colonial bentgrass (A. capillaris L.), creeping bentgrass (A. stolonifera L.) and velvet bentgrass (A. canina L.)) by PCR-based motif-directed RNA fingerprinting towards relatively conserved nucleotide binding site (NBS) domains. Sixty-one constitutively expressed cDNA sequences were identified and characterized. Sequence analysis of ESTs and probable translation products revealed that RGLs are highly conserved among these three Agrostis species. Fifteen of them were shown to share conserved motifs found in other plant disease resistance genes such as MLA13, Xa1, YR6, YR23 and RPP5. The molecular evolutionary forces, analysed using the Ka/Ks ratio, reflected purifying selection both on NBS and leucine-rich repeat (LRR) intervening regions of discovered RGL sequences in these species. This study presents, for the first time, isolation and characterization of constitutively expressed RGL sequences from Agrostis species revealing the presence of TNL (TIR-NBS-LRR) type R genes in monocot plants. The characterized RGLs will further enhance knowledge on the molecular evolution of the R gene family in grasses.     

Two classes of differentially regulated glutamine synthetase genes are expressed in the soybean nodule: a nodule-specific class and a constitutively expressed class

We have characterized two sets of cDNA clones representing the glutamine synthetase (GS) mRNA in soybean nodules. Using the 3-untranslated regions of a representative member of each set, as gene member(s) specific probes, we have shown that one set of the GS genes are expressed in a nodule-specific manner, while the other set is expressed in other tissues, besides the nodules. The nodule-specific GS genes are expressed in a developmentally regulated manner in the nodules, independent of the onset of nitrogen fixation. The other class of GS genes is expressed constitutively in all tissues tested, but its expression level is dramatically enhanced in nodules following onset of N2 fixation. The latter set of genes is also expressed in cotyledons of germinating seedlings in a developmentally regulated manner. Analysis of hybrid select translation products and genomic Southern blots suggests that multiple gene members in each class are expressed in the nodules.     

Identification and cloning of gusA, encoding a new beta-glucuronidase from Lactobacillus gasseri ADH

The gusA gene, encoding a new beta-glucuronidase enzyme, has been cloned from Lactobacillus gasseri ADH. This is the first report of a beta-glucuronidase gene cloned from a bacterial source other than Escherichia coli. A plasmid library of L. gasseri chromosomal DNA was screened for complementation of an E. coli gus mutant. Two overlapping clones that restored beta-glucuronidase activity in the mutant strain were sequenced and revealed three complete and two partial open reading frames. The largest open reading frame, spanning 1,797 bp, encodes a 597-amino-acid protein that shows 39% identity to beta-glucuronidase (GusA) of E. coli K-12 (EC 3.2.1.31). The other two complete open reading frames, which are arranged to be separately transcribed, encode a putative bile salt hydrolase and a putative protein of unknown function with similarities to MerR-type regulatory proteins. Overexpression of GusA was achieved in a beta-glucuronidase-negative L. gasseri strain by expressing the gusA gene, subcloned onto a low-copy-number shuttle vector, from the strong Lactobacillus P6 promoter. GusA was also expressed in E. coli from a pET expression system. Preliminary characterization of the GusA protein from crude cell extracts revealed that the enzyme was active across an acidic pH range and a broad temperature range. An analysis of other lactobacilli identified beta-glucuronidase activity and gusA homologs in other L. gasseri isolates but not in other Lactobacillus species tested.     

All three human ras genes are expressed in a wide range of tissues

We examined the expression of the ras gene family (Ha-ras, Ki-ras, N-ras) in human fetal tissues (14 week) and in several human tumor cell lines. Dot blot hybridization showed that the three ras genes were expressed in all of the samples analysed, with a range of expression between 10 and 180 molecules/cell. There was no correlation between levels of expression of ras genes and the type of ras gene activated in different tumor types.     

Studies on synonymous codon and amino acid usage biases in the broad-host range bacteriophage KVP40

In this study, the relative synonymous codon and amino acid usage biases of the broad-host range phage, KVP40, were investigated in an attempt to understand the structure and function of its proteins/protein-coding genes, as well as the role of its tRNAs. Synonymous codons in KVP40 were determined to be ATrich at the third codon positions, and their variations are dictated principally by both mutational bias and translational selection. Further analysis revealed that the RSCU of KVP40 is distinct from that of its Vibrio hosts, V. cholerae and V. parahaemolyticus. Interestingly, the expression of the putative highly expressed genes of KVP40 appear to be preferentially influenced by the abundant host tRNA species, whereas the tRNAs expressed by KVP40 may be required for the efficient synthesis of all its proteins in a diverse array of hosts. The data generated in this study also revealed that KVP40 proteins are rich in low molecular weight amino acid residues, and that these variations are influenced primarily by hydropathy, mean molecular weight, aromaticity, and cysteine content.     

Construction of a new cloning vector utilizing a cryptic plasmid and the highly expressed melanin-synthesizing gene operon from Streptomyces castaneoglobisporus

Streptomyces castaneoglobisporus HUT6202 overproduces a diffusible melanin pigment and harbors a cryptic 7.4-kb plasmid, pHY6202. We constructed a Streptomyces cloning vector, pSY10CMM, consisting of the HUT6202 rep gene, the thiostrepton resistance gene and an operon encoding the synthesis of melanin pigment, abbreviated mel, from S. castaneoglobisporus. The vector, which has SphI and BamHI sites as cloning sites with insertional inactivation of the mel, is a more convenient cloning vector than commonly used pIJ702, because of its broad host range for antibiotic-producing Streptomyces strains and its much greater production of diffusible melanin pigment.     

Dm3 is one member of a large constitutively expressed family of nucleotide binding site-leucine-rich repeat encoding genes

The major cluster of resistance genes in lettuce cv. Diana contains approximately 32 nucleotide binding site-leucine-rich repeat encoding genes. Previous molecular dissection of this complex region had identified a large gene, RGC2B, as a candidate for encoding the downy mildew resistance gene, Dm3. This article describes genetic and transgenic complementation data that demonstrated RGC2B is necessary and sufficient to confer resistance with Dm3 specificity. Ethylmethanesulphonate was used to induce mutations to downy mildew susceptibility in cv. Diana (Dm1, Dm3, Dm7, and Dm8). Nineteen families were identified with a complete loss of resistance in one of the four resistance specificities. Sequencing revealed a variety of point mutations in RGC2B in the six dm3 mutants. Losses of resistance were due to single changes in amino acid sequence or a change in an intron splice site. These mutations did not cluster in any particular region of RGC2B. A full-length genomic copy of RGC2B was isolated from a lambdaphage library and introduced into two genotypes of lettuce. Transgenics expressing RGC2B exhibited resistance to all isolates expressing Avr3 from a wide range of geographical origins. In a wildtype Dm3-expressing genotype, many of the RGC2 family members are expressed at low levels throughout the plant.     

A novel vector allowing the expression of genes in a wide range of gram-negative bacteria

The construction and use of a novel vector allowing the expression of genes in a wide range of Gram-negative bacteria is described. The vector utilizes the regulatory region from IS50. The 70-bp promoter region was isolated from one of the terminal inverted repeats of Tn5 by creating EcoRI and Sa/I or PstI restriction sites by in vitro mutagenesis. This 70-bp region was shown to direct the expression of cat and lacZ genes in different bacterial genera including Alcaligenes, Enterobacter cloacae, Klebsiella pneumoniae, Pseudomonas stutzeri, Pseudomonas fluorescens, and Serratia marcescens. Different strains containing the cat gene behind the regulatory elements of IS50 were able to tolerate high concentrations (300 micrograms/ml) of chloramphenicol in the medium. The 70-bp promoter region was cloned into a broad-host-range plasmid behind multiple cloning sites to create pAV10, which has unique restriction sites for BamHI, KpnI, SstI, and XbaI. Genes cloned into pAV10 can be expressed in a variety of Gram-negative bacteria.     

Molecular cloning and characterization of a constitutively expressed heat-shock-cognate hsc71 gene from rainbow trout.

A rainbow trout major heat-shock-protein-like gene (hsp 70) and corresponding cDNA clones were isolated by hybridization to heterologous hsp70 probes. DNA sequencing revealed that this gene is structurally similar to a mammalian heat-shock-cognate hsc70 gene and consists of eight introns. Northern blot and primer extension analyses showed that the corresponding mRNA is constitutively abundant in different trout tissues and salmonid cell lines. Fragments of the isolated gene containing the -900 - +30 and -217 - +58 sequence were linked to a bacterial chloramphenicol acetyltransferase reporter gene and transiently transfected into salmonid cells. The expression pattern of these constructs supports our conclusion that the isolated genomic and cDNA clones correspond to a trout heat-shock-cognate hsc70 gene.     

Comparative study of genes expressed from rice fungus-resistant and susceptible lines during interactions with Magnaporthe oryzae

Rice blast disease caused by Magnaporthe oryzae is the most important fungal disease of rice. To understand the molecular basis of interaction between the fungus and rice, we constructed a cDNA library from a rice-resistant line inoculated with M. oryzae. One hundred and fifty-three cDNA clones were sequence analyzed, of which 129 exhibited significant nucleotide sequence homology to known genes, 21 were homologous to unknown genes, while three clones did not match to any database. However, these three unmatched clones showed sequence homology at protein level in the protein databases and one of them encoded a disease resistance-related protein kinase and was abundant in the EST collection. Northern analysis showed that this disease resistance-related protein kinase gene was induced by inoculation and only expressed in the rice-resistant, but not susceptible, lines. Southern analysis showed that this gene was present in a single copy in the rice genome and co-segregated with the M. oryzae resistance in the cross of the resistant and susceptible lines. This study illustrates that sequencing of ESTs from inoculated resistant plants can reveal genes responsive to pathogen infection, which could help understand plant defense mechanisms.     

Cloning and functional characterization of a constitutively expressed nitrate transporter gene, OsNRT1, from rice

Elucidating how rice (Oryza sativa) takes up nitrate at the molecular level could help improve the low recovery rate (<50%) of nitrogen fertilizer in rice paddies. As a first step toward that goal, we have cloned a nitrate transporter gene from rice called OsNRT1. OsNRT1 is a new member of a growing transporter family called PTR, which consists not only of nitrate transporters from higher plants that are homologs of the Arabidopsis CHL1 (AtNRT1) protein, but also peptide transporters from a wide variety of genera including animals, plants, fungi, and bacteria. However, despite the fact that OsNRT1 shares a higher degree of sequence identity with the two peptide transporters from plants (approximately 50%) than with the nitrate transporters (approximately 40%) of the PTR family, no peptide transport activity was observed when OsNRT1 was expressed in either Xenopus oocytes or yeast. Furthermore, contrasting the dual-affinity nitrate transport activity of CHL1, OsNRT1 displayed only low-affinity nitrate transport activity in Xenopus oocytes, with a K(m) value of approximately 9 mM. Northern-blot and in situ hybridization analysis indicated that OsNRT1 is constitutively expressed in the most external layer of the root, epidermis and root hair. These data strongly indicate that OsNRT1 encodes a constitutive component of a low-affinity nitrate uptake system for rice.     

Introduction of foreign genes into Pharbitis nil calli using a vector derived from Agrobacterium pTi

Transgenic calli of Pharbitis nil which grow in the presence of kanamycin were obtained by introduction of plasmid pBI121, which carries kanamycin resistance and the gene for beta-glucuronidase. The calli were shown to have fragments of vector DNA in their genome and high levels of beta-glucuronidase activity. This is the first report of the introduction of T-DNA into P. nil and the T-DNA has been shown to be integrated without apparent rearrangement in its genome. The range of copy numbers was between 3 and 5. The beta-glucuronidase activities measured were about 10 times higher than those of transgenic tobacco by introduction of the same plasmid as previously described by Jefferson et al. (1987). Thus, the widely used CaMV 35S promoter also appears to be very active in P. nil.Abbreviations CaMV Cauliflower Mosaic Virus - NAA naphthylacetic acid - BA benzylaminopurine - NPT neomycinphosphotransferase - GUS beta-glucuronidase - CTX Cefotaxime - MS Murashige and Skoog - 4-MU 4-methylumbelliferone - NOS nopaline synthase - CTAB hexadecyltrimethylammonium bromide     

Construction of a new vector for the expression of foreign genes inZymomonas mobilis

Summary Broad host range plasmids have previously been shown to be suitable as vectors to introduce antibiotic resistance genes intoZ. mobilis. However, attempts to use these vectors to carry other genes with enteric promoters and controlling elements have resulted in limited success due to poor expression. Thus we have constructed a promoter cloning vector in a modified pBR327 and used this vector to isolated 12 promoters fromZ. mobilis which express various levels of -galactosidase inEscherichia coli. Four of these were then subcloned into pCVD 305 for introduction intoZ. mobilis. All expressed -galactosidase inZ. mobilis with activities of 100 to 1800 Miller units. One of these retained aBamHl site into which new genes can be readily inserted immediately downstream from theZ. mobilis promoter. Genetic traits carried by pCVD 305 were initially unstable but spontaneous variants were produced during sub-culture in which the plasmid was resistant to curing at elevated temperature. One of these variants was examined in some detail. The increased stability of this variant appears to result from an alteration in the plasmid rather than a chromosomal mutation or from chromosomal integration.     

Bacteriophage T4, a new vector for the expression of cloned genes

The amino-terminal portion of the T4 rIIB gene has been fused to the coding sequence of a truncated lacZ gene from Escherichia coli, giving rise to a fusion protein with beta-galactosidase activity. The 3192-bp rIIB-lacZ gene fusion was transferred into phage T4, and enzymatically active protein was produced after phage infection. T4 may be a useful expression vector in special circumstances, in particular for proteins whose accumulation in E. coli is limited by sensitivity to proteases.     

含gfp植物转基因表达载体的构建及在矮牵牛转基因不定根中的高效表达

利用pBIN19、pGFP和pCHS质粒, 成功构建了CaMV 35S启动子驱动的gfp基因的植物转基因表达载体pBIN-35S-GFP, 并导入野生型发根农杆菌K599。矮牵牛的转化实验表明, 矮牵牛离体叶片被发根农杆菌K599(带pBIN-35S-GFP质粒)感染生根率达45%。对诱导的不定根基因组DNA的PCR检测表明, 不定根基因组中含有发根农杆菌K599 Ri质粒中的rolB基因和外源gfp基因;转基因不定根在蓝色光激发下能发出强烈的绿色荧光, 表明构建的转基因载体pBIN-35S-GFP能实现gfp基因的高效表达。该载体在CaMV 35S启动子的两端各有一个多克隆位点, 可以方便地进行启动子替换, 用于研究不同启动子的功能。此外, 该载体在gfp基因的5'端含有多克隆位点, 在3'端含有EcoRⅠ和BsmⅠ两个单一酶切位点, 可以方便地在5'端连接上目标基因, 表达含GFP的融合蛋白, 进行目标基因编码蛋白的亚细胞定位; 也可以方便地切除gfp基因, 连上需要的目的基因进行转化。