Nucleotide sequence of the AAD(2'''') aminoglycoside adenylyltransferase determinant aadB. Evolutionary relationship of this region with those surrounding aadA in R538-1 and dhfrII in R388.

The nucleotide sequence of the aadB gene which confers resistance to kanamycin, gentamicin, and tobramycin has been determined. The size of the longest reading frame is 747 bases encoding a protein of predicted size 27,992 daltons. A segment of the aadB gene sequence (including the promoter region) was found upstream of the aadA gene in R538-1 and of the dhfrII gene in R388 and the proposed promoters for these genes coincide with the aadB promoter region. The sequence homology extends upstream to the end of the sequenced regions of R388 and R538-1. Almost perfect homology was also found between the sequences 3'- to the aadB gene and 3'- to the aadA genes of R538-1 and pSa. This segment includes a 59 base element previously found flanking the Tn7 aadA gene. A model is presented for the evolution of this region of the plasmid genomes in which the 59- base element functions as an insertional "hot spot" and the possibility that this region is analogous to the aadA/aadB region of the Tn21- like transposon family is considered.     

Identification and Characterization of Integron-Mediated Antibiotic Resistance in the Phytopathogen Xanthomonas oryzae pv. oryzae

Four streptomycin-resistant isolates of Xanthomonas oryzae pv. oryzae (YNA7-1, YNA10-2, YNA11-2, and YNA12-2) were examined via PCR amplification for the presence of class 1, class 2, and class 3 integrons and aadA1 and aadA2 genes, which confer resistance to streptomycin and spectinomycin. The class 1 integrase gene intI1 and the aminoglycoside adenylyltransferase gene aadA1 were identified in all four resistant isolates but not in 25 sensitive isolates. PCR amplifications showed that 7790-bp, 7162-bp, 7790-bp, and 7240-bp resistance integrons with transposition gene modules (tni module) in 3′ conserved segments existed in YNA7-1, YNA10-2, YNA11-2, and YNA12-2, respectively. Subsequent analysis of sequences indicated that the integrons of YNA7-1 and YNA11-2 carried three gene cassettes in the order |aacA3|arr3|aadA1|. The integron of YNA10-2 carried only |arr3|aadA1| gene cassettes. The integron of YNA12-2 lacked a 550-bp sequence including part of intI1 but it still carried |aacA3|arr3|aadA1| gene cassettes. The analysis of inactive mutants and complementation tests confirmed that the aacA3 gene conferred resistance to tobramycin, kanamycin, gentamicin and netilmicin; the arr3 gene conferred resistance to rifampicin; and the aadA1 gene conferred resistance to streptomycin and spectinomycin. The resistance phenotypes of the four isolates corresponded with their resistance gene cassettes, except that YNA7-1 and YNA12-2 did not show rifampicin resistance. Sequence comparison revealed that no gene cassette array in GenBank was in the same order as in the integrons of the four resistant isolates in this study and the aadA1, which was identical in the four resistant isolates, showed 99% identity with aadA1 sequences in GenBank. The result of a stability test showed that the resistance phenotype, the aadA1 gene, and the intI1 gene were completely stable in YNA7-1 and YNA12-2 but unstable in YNA10-2 and YNA11-2. To our knowledge, this is the first report of resistance integron in a phytopathogenic bacteria.     

烟草质体多顺反子定点整合表达载体的构建和转化

构建了烟草质体多顺反子定点整合表达载体pLM4(-psaA-Prrn-RBS-man-RBS-gfp-RBS-aadA-psbA3'-psbC-).用基因枪将该载体轰击烟草叶片5次,用添加了壮观霉素的选择分化培养基筛选,获得质体转基因烟草6株.用PCR、激光扫描、Western blot和RFLP等方法检测都证实多顺反子表达盒中的3个基因甘露聚糖酶基因(man)、绿荧光蛋白基因(gfp)、氨基糖苷3'-腺苷酰基转移酶基因(aadA)已整合到烟草质体基因组中,且均得到表达.     

Construction of a tobacco master line to improve Rubisco engineering in chloroplasts

The inability to assemble Rubisco from any photosynthetic eukaryote within Escherichia coli has hampered structure-function studies of higher plant Rubisco. Precise genetic manipulation of the tobacco chloroplast genome (plastome) by homologous recombination has facilitated the successful production of transplastomic lines that have either mutated the Rubisco large subunit (L) gene, rbcL, or replaced it with foreign variants. Here the capacity of a new tobacco transplastomic line, (cm)trL, to augment future Rubisco engineering studies is demonstrated. Initially the rbcL was replaced with the selectable marker gene, aadA, and an artificial codon-modified (cm)rbcM gene that codes for the structurally novel Rubisco dimer (L(2), approximately 100 kDa) from Rhodosprillum rubrum. To obtain (cm)trL, the aadA was excised by transiently introducing a T-DNA encoding CRE recombinase biolistically. Selection using aadA enabled transplantation of mutated and wild-type tobacco Rubisco genes into the (cm)trL plastome with an efficiency that was 3- to 10-fold higher than comparable transformations into wild-type tobacco. Transformants producing the re-introduced form I tobacco Rubisco variants (hexadecamers comprising eight L and eight small subunits, approximately 520 kDa) were identified by non-denaturing PAGE with fully segregated homoplasmic lines (where no L(2) Rubisco was produced) obtained within 6-9 weeks after transformation which enabled their Rubisco kinetics to be quickly examined. Here the usefulness of (cm)trL in more readily examining the production, folding, and assembly capabilities of both mutated tobacco and foreign form I Rubisco subunits in tobacco plastids is discussed, and the feasibility of quickly assessing the kinetic properties of those that functionally assemble is demonstrated.     

Removal of antibiotic resistance genes from transgenic tobacco plastids

Removal of antibiotic resistance genes from genetically modified (GM) crops removes the risk of their transfer to the environment or gut microbes. Integration of foreign genes into plastid DNA enhances containment in crops that inherit their plastids maternally. Efficient plastid transformation requires the aadA marker gene, which confers resistance to the antibiotics spectinomycin and streptomycin. We have exploited plastid DNA recombination and cytoplasmic sorting to remove aadA from transplastomic tobacco plants. A 4.9 kbp insert, composed of aadA flanked by bar and uidA genes, was integrated into plastid DNA and selected to remove wild-type plastid genomes. The bar gene confers tolerance to the herbicide glufosinate despite being GC-rich. Excision of aadA and uidA mediated by two 174 bp direct repeats generated aadA-free T(0) transplastomic plants containing the bar gene. Removal of aadA and bar by three 418 bp direct repeats allowed the isolation of marker-free T(2) plants containing a plastid-located uidA reporter gene.     

Nucleotide sequence of the transposon Tn7 gene encoding an aminoglycoside-modifying enzyme, 3"(9)-O-nucleotidyltransferase

The nucleotide sequence of a transposon Tn7 DNA fragment encoding a 3"(9)-O-nucleotidyltransferase, an aminoglycoside-modifying enzyme, which mediates bacterial resistance to spectinomycin and streptomycin, was determined. The aadA structural gene was 786 bases long and predicted a polypeptide of 262 amino acids with a calculated molecular weight of 29,207. Comparison of the DNA sequences of Tn7 and plasmid R538-1 indicated that their aadA genes were nearly identical. Comparison of the polypeptides predicted by the aadA genes of Tn7 and Tn554 indicated that the genes were related.     

Characterisation of two new gene cassettes, aadA5 and dfrA17

Escherichia coli INS33 was isolated from the urinary tract of an infected patient. It was resistant to ampicillin, chloramphenicol, spectinomycin, streptomycin, sulfafurazole, tetracycline and trimethoprim. PCR screening revealed the presence of a class 1 integron that harboured two new gene cassettes, designated dfrA17 and aadA5. The new dfrA17 cassette was 91% identical to the known dfrA7 cassette. The aadA5 cassette was 95% identical over the first 830 bp to aadA4, but lacked the IS26 element found at the 3' end of this truncated cassette. Cloning and expression of the cassette region demonstrated that dfrA17 conferred high level resistance to trimethoprim but aadA5 conferred resistance to spectinomycin but not to streptomycin.     

Isolation and characterization of the aadA aminoglycoside-resistance gene from Salmonella choleraesuis

The streptomycin- and spectinomycin-resistance gene of Salmonella choleraesuis was cloned and its nucleotide sequence determined. The gene is 789 bases long, encoding a protein of a predicted size of 29,353 Da. The gene product inactivated streptomycin and spectinomycin by an adenylation modification. It is homologous (c. 40% total identity) to streptomycin adenylyltransferase, a 3'(9)-O-nucleotidyltransferase (AAD(3')(9)), which is encoded by the aadA gene in Escherichia coli, Agrobacterium tumefaciens, Klebsiella pneumonia, and Serratia marcescens. The AadA protein of S. choleraesuis differs significantly from the other AadA proteins, indicating that it may have diverged from the other members of this family earlier in evolution. Southern hybridization analysis revealed that homologous aadA sequences were also present in other streptomycin-resistant Salmonella species.     

The origin and characterization of new nuclear genes originating from a cytoplasmic organellar genome

Endosymbiotic transfer of DNA and functional genes from the cytoplasmic organelles (mitochondria and chloroplasts) to the nucleus has been a major factor driving the origin of new nuclear genes, a process central to eukaryote evolution. Although organelle DNA transfers very frequently to the nucleus, most is quickly deleted, decays, or is alternatively scrapped. However, a very small proportion of it gives rise, immediately or eventually, to functional genes. To simulate the process of functional transfer, we screened for nuclear activation of a chloroplast reporter gene aadA, which had been transferred from the chloroplast to independent nuclear loci in 16 different plant lines. Cryptic nuclear activity of the chloroplast promoter was revealed, which became conspicuous when present in multiple nuclear copies. We screened ～50 million cells of each line and retrieved three plants in which aadA showed strong nuclear activation. Activation occurred by acquisition of the CaMV 35S nuclear promoter or by nuclear activation of the native chloroplast promoter. Two fortuitous sites within the 3' UTR of aadA mRNA both promoted polyadenylation without any sequence change. Complete characterization of one nuclear sequence before and after gene transfer demonstrated integration by nonhomologous end joining involving simultaneous insertion of multiple chloroplast DNA fragments. The real-time observation of three different means by which a chloroplast gene can become expressed in the nucleus suggests that the process, though rare, may be more readily achieved than previously envisaged.     

Molecular characterization of antimicrobial resistance in Gram-negative bacteria isolated from bovine mastitis in Egypt

The aim of this study was to characterize the genetic basis of multidrug resistance in Gram-negative bacteria isolated from bovine mastitis cases in Egypt. Multidrug resistance phenotypes were found in 34 of 112 (30.4%) Gram-negative bacterial isolates, which harbored at least one antimicrobial resistance gene. The most prevalent multidrug-resistant (MDR) species were Enterobacter cloacae (8 isolates, 7.1%), Klebsiella pneumoniae (7 isolates, 6.3%), Klebsiella oxytoca (7 isolates, 6.3%), Escherichia coli (5 isolates, 4.5%), and Citrobacter freundii (3 isolates, 2.7%). The most commonly observed resistance phenotypes were against ampicillin (97.0%), streptomycin (94.1%), tetracycline (91.2%), trimethoprim-sulfamethoxazole (88.2%), nalidixic acid (85.3%), and chloramphenicol (76.5%). Class 1 integrons were detected in 28 (25.0%) isolates. The gene cassettes within class 1 integrons included those encoding resistance to trimethoprim (dfrA1, dfrA5, dfrA7, dfrA12, dfrA15, dfrA17, and dfrA25), aminoglycosides (aadA1, aadA2, aadA5, aadA7, aadA12, aadA22, and aac(3)-Id), chloramphenicol (cmlA), erythromycin (ereA2), and rifampicin (arr-3). Class 2 integrons were identified in 6 isolates (5.4%) with three different profiles. Furthermore, the β-lactamase encoding genes, bla(TEM), bla(SHV), bla(CTX-M), and bla(OXA), the plasmid-mediated quinolone resistance genes, qnr and aac(6)-Ib-cr, and the florfenicol resistance gene, floR, were also identified. To the best of our knowledge, the results identified class 2 integrons, qnr and aac(6)-Ib-cr from cases of mastitis for the first time. This is the first report of molecular characterization for antimicrobial resistance in Gram-negative bacteria isolated from bovine mastitis in Africa.     

Plastid genomes in a regenerating tobacco shoot derive from a small number of copies selected through a stochastic process

The plastid genome (ptDNA) of higher plants is highly polyploid, and the 1000-10 000 copies are compartmentalized with up to approximately 100 plastids per cell. The problem we address here is whether or not a newly arising genome can be established in a developing tobacco shoot, and be transmitted to the seed progeny. We tested this by generating two unequal ptDNA populations in a cultured tobacco cell. The parental tobacco plants in this study have an aurea (yellowish-golden) leaf color caused by the presence of a bar(au) gene in the ptDNA. In addition, the ptDNA carries an aadA gene flanked with the phiC31 phage site-specific recombinase (Int) attP/attB target sites. The genetically distinct ptDNA copies were obtained by Int, which either excised only the aadA marker gene (i.e. did not affect the aurea phenotype) or triggered the deletion of both the aadA and bar(au) transgenes, and thereby restored the green color. The ptDNA determining green plastids represented only a small fraction of the population and was not seen in a transient excision assay, and yet three out of the 53 regenerated shoots carried green plastids in all developmental layers. The remaining 49 Int-expressing plants had either exclusively aurea (24) or variegated (25) leaves with aurea and green sectors. The formation of homoplastomic green shoots with the minor green ptDNA in all developmental layers suggests that the ptDNA population in a regenerating shoot apical meristem derives from a small number of copies selected through a stochastic process.     

Four Novel Resistance Integron Gene-Cassette Occurrences in Bacterial Isolates from Zhenjiang, China

Integrons, which are widely distributed among bacteria and are strongly associated with resistance, are specialized genetic elements that are capable of capturing, integrating, and mobilizing gene cassette. In this work, we investigated classes 1, 2, and 3 integrons associated integrases genes in 365 bacteria isolates, amplified and analyzed the structure of class 1 integron, detected 8 resistant gene cassettes [dfr17, aadA5, aadA1, aadA2, dhfrI, aadB, aac(6′)-II, and pse-I], and found four novel gene-cassette arrays. We also found that commensal bacteria in the common microenvironment had the same integron gene cassette, which provided direct evidence that integron was an important horizontal transmission element.     

The region of the IncN plasmid R46 coding for resistance to beta-lactam antibiotics, streptomycin/spectinomycin and sulphonamides is closely related to antibiotic resistance segments found in IncW plasmids and in Tn21-like transposons.

The nucleotide sequence of a 2.5 kb segment of the pKM101 (R46) genome has been determined. The 1.3 kb from a BamHI site at 153 to base 1440 differs by only 2 bases from a part of the published sequence of the aadB (gentamicin resistance) gene region including the coding region for the N-terminal 70 amino acids of the predicted aadB product. The same sequence has been found 5'-to the dhfrII gene of R388 and to the aadA gene of Tn21 (R538-1). Three open reading frames are located in this region, two on the same strand as the resistance genes and one on the complementary strand. The latter predicts a polypeptide of 337 amino acids, whose N-terminal segment is 40% homologous to the predicted product of an open reading frame of 179 amino acids located next to the dhfrI gene of Tn7. The oxa2 (oxacillin resistance) gene predicts a long polypeptide commencing with (the N-terminal) 70 amino acids of the aadB product. A similar arrangement is found in the aadA gene of R538-1. The N-terminal segment of an aadA gene is located 3'- to oxa2, separated by 36 bases. Sequences surrounding the BamHI site are identical to sequences 5'- to the tnpM gene of Tn21 and homology ceases where homology between Tn21 and Tn501 commences. The possibility that this antibiotic resistance segment is a discrete mobile DNA element is discussed.     

Occurrence and molecular characteristics of antimicrobial resistance of Escherichia coli from broilers,pigs and meat products in Thailand and Cambodia provinces

Nine hundred and forty‐one samples were collected in Sa Keao, Thailand (n = 554) and Banteay Meanchey, Cambodia (n = 387) from July 2014 to January 2015. A total of 667 Escherichia coli isolates (381 isolates from Sa Keao and 286 isolates from Banteay Meanchey) were obtained and examined for antimicrobial susceptibility, class 1 integrons, ESBL genes and horizontal transfer of resistance determinants. Prevalence of E. coli in pig and broiler carcass samples from slaughterhouses and fresh markets was 36–85% in Sa Keao and 11–69% in Banteay Meanchey. The majority of these isolates were multidrug resistant (75.3%). Class 1 integrons were common in both Thai (47%) and Cambodian (62%) isolates, of which four resistance gene cassette arrays including aadA1, dfrA1‐aadA1, dfrA12‐aadA2 and aadA2‐linF were identified. Class 1 integrons in two broiler isolates from Sa Keao (dfrA12‐aadA2) and one broiler isolate from Banteay Meanchey (dfrA1‐aadA1) were horizontally transferable. Sixteen isolates were confirmed to be ESBL‐producing strains with ESBL gene bla_CTX‐M‐15, broad spectrum β‐lactamase gene bla_TEM‐1 and the AmpC gene bla_CMY‐2 being detected. The bla_TEM‐1 gene was most prevalent and located on a conjugative plasmid.