RNA: a method to specifically inhibit PCR amplification of known members of a multigene family by degenerate primers

The polymerase chain reaction (PCR) is a versatile method to amplify specific DNA with oligonucleotide primers. By designing degenerate PCR primers based on amino acid sequences that are highly conserved among all known gene family members, new members of a multigene family can be identified. The inherent weakness of this approach is that the degenerate primers will amplify previously identified, in addition to new, family members. To specifically address this problem, we synthesized a specific RNA for each known family member so that it hybridized to one strand of the template, adjacent to the 3′-end of the primer, allowing the degenerate primer to bind yet preventing extension by DNA polymerase. To test our strategy, we used known members of the soluble, nitric oxide-sensitive guanylyl cyclase family as our templates and degenerate primers that discriminate this family from other guanylyl cyclases. We demonstrate that amplification of known members of this family is effectively and specifically inhibited by the corresponding RNAs, alone or in combination. This robust method can be adapted to any application where multiple PCR products are amplified, as long as the sequence of the desired and the undesired PCR product(s) is sufficiently distinct between the primers.     

Use of porcine interspersed repeat sequences in PCR-mediated genotyping

PCR primers derived from porcine short and long interspersed repeat sequences were used to amplify DNA samples isolated from individual members of threegeneration pig reference pedigrees. Subsequent high-resolution gel electrophoresis of both SINE and LINE-PCR products allowed direct visualisation of polymorphisms that segregated in a Mendelian manner. Additional polymorphisms were detected by Southern blotting of the gels described above followed by hybridization with simple sequence DNA. Genotyping by interspersed repeat-PCR exploits the natural architecture of the pig genome and allows the typing of polymorphisms by utilizing pre-existing sequence information.     

Genomic analysis of human multigene families using chromosome-specific vectorette PCR.

We report a technique for the rapid determination of genomic structure of individual members of human interspersed multigene families which circumvents the requirement for genomic clone isolation. In this approach, vectorette libraries were constructed from human/rodent somatic cell hybrid DNA harbouring single members of the gene family. Using these libraries as PCR templates with nested gene-specific primers in combination with a common vectorette primer resulted in the amplification of gene-specific products suitable for the subsequent determination of intron/exon structure. We have applied this technique to characterise members of two gene families.     

Restriction enzyme mapping of bacterial urease genes: using degenerate primers to expand experimental outcomes

Two degenerate primers are described that can be used to amplify a 340 bp fragment of the ureC gene from a variety of urease producing bacteria. A series of experiments are outlined that enable students to develop restriction maps of the urease gene clusters from different bacteria. Students learn a variety of molecular biology techniques including polymerase chain reaction, agarose gel electrophoresis, and Southern blotting. This project allows for multiple experimental outcomes using the same two PCR primers.     

猕猴桃6个LOX基因家族成员实时定量PCR引物特异性的检测与应用

从基因家族成员的视角开展基因表达研究是阐明基因功能的重要组成内容,实时定量PCR（QPCR）技术是分析基因表达的有效手段.以猕猴桃脂氧合酶（LOX）基因家族6个成员为对象,分析了引物特异性的检测方法.该方法整合了熔点曲线分析、琼脂糖电泳、交叉PCR扩增和PCR产物测序等分析手段,有效消除其他成员的交叉扩增干扰,为利用QPCR检测基因家族成员表达提供了特异、准确与可行的途径.     

Detection of sequence variation in PCR-amplified fragments of omp2 gene from three species of the family Chlamydiaceae using agarose gel electrophoresis containing bisbenzimide-PEG

A simple technique providing a means for rapid genetic differentiation of chlamydial strains is described. The technique is based on a single-step sequence-specific separation of PCR-amplified DNA fragments by electrophoresis in an agarose gel containing a DNA ligand - bisbenzimide-PEG. A hypervariable region at the 5' end of the omp2 gene of Chlamydiaceae species encoding the 60-kDa cysteine-rich outer membrane protein was selected as a target for PCR. The appropriate fragments were amplified from strains of Chlamydia trachomatis, Chlamydophila pneumoniae, and Chlamydophila psittaci, and the PCR products originating from different species were electrophoretically separated in the presence of the DNA ligand. We therefore demonstrated that PCR with a single pair of primers followed by simple agarose gel electrophoresis with bisbenzimide-PEG can be applied to the differentiation of three members of the family Chlamydiaceae which are commonly recognized as human pathogens.     

Cloning and characterization of a human lysyl oxidase-like 3 gene (hLOXL3).

Using the PCR primers generated from human expressed sequence tag (EST), the cDNA of lysyl oxidase-like gene 3 (LOXL3), a new member of human lysyl oxidases gene family, was cloned from the human fetal brain mRNA. The predicted amino acid sequence of the hLOXL3 gene was highly homologous to mLOR2. Bioinformatics analysis shows that hLOXL3 protein is also a member of the scavenger receptor cysteine-rich family, which contains a 25 amino acids signal peptide. The hLOXL3 gene was mapped to human 2p13 locus by BLAST search and at least 14 exons were found. Expression of the hLOXL3 gene was detected in several human tissues and especially high in spleen and testis.     

CODEHOP-mediated PCR – A powerful technique for the identification and characterization of viral genomes

Consensus-Degenerate Hybrid Oligonucleotide Primer (CODEHOP) PCR primers derived from amino acid sequence motifs which are highly conserved between members of a protein family have proven to be highly effective in the identification and characterization of distantly related family members. Here, the use of the CODEHOP strategy to identify novel viruses and obtain sequence information for phylogenetic characterization, gene structure determination and genome analysis is reviewed. While this review describes techniques for the identification of members of the herpesvirus family of DNA viruses, the same methodology and approach is applicable to other virus families.     

PCR amplification of the fimA gene sequence of Salmonella typhimurium, a specific method for detection of Salmonella spp.

The goal of this study was to evaluate the suitability of the fimA gene amplification by PCR as a specific method for detection of Salmonella strains. Salmonella typhimurium and other pathogenic members of the family Enterobacteriaceae produce morphologically and antigenically related, thin, aggregative, type 1 fimbriae. A single gene, fimA, encodes the major fimbrial unit. In order to obtain higher specificity, we have selected a series of primers internal to the fimA gene sequence and have developed a PCR method for detecting Salmonella strains. A collection of 376 strains of Salmonella comprising over 80 serovars, isolated from animals and humans in Canada, have been used to evaluate this PCR method. Forty non-Salmonella strains were also tested by the same procedure. Cultures were screened by inoculating a single colony of bacteria directly into a PCR mixture containing a pair of primers specific for the fimA gene. The specific PCR product is an 85-bp fragment which was visualized by polyacrylamide gel electrophoresis and ethidium bromide staining. All Salmonella strains gave positive results by the PCR. Feed and milk samples contaminated by Salmonella strains were also detected by this procedure. The detection of all Salmonella strains tested and the failure to amplify the fragment from non-Salmonella strains confirm that the fimA gene contains sequences unique to Salmonella strains and demonstrate that this gene is a suitable PCR target for detection of Salmonella strains in food samples.     

Retrieval of glycoside hydrolase family 9 cellulase genes from environmental DNA by metagenomic gene specific multi-primer PCR

A new method, termed metagenomic gene specific multi-primer PCR (MGSM-PCR), is presented that uses multiple gene specific primers derived from an isolated gene from a constructed metagenomic library rather than degenerate primers designed based on a known enzyme family. The utility of MGSM-PCR was shown by applying it to search for homologues of the glycoside hydrolase family 9 cellulase in metagenomic DNA. The success of the multiplex PCR was verified by visualizing products on an agarose gel following gel electrophoresis. A total of 127 homologous genes were amplified with combinatorial multi-primer reactions from 34 soil DNA samples. Multiple alignments revealed extensive sequence diversity among these captured sequences with sequence identity varying from 26 to 99.7%. These results indicated that significantly diverse homologous genes were indeed readily accessible when using multiple metagenomic gene specific primers.     

大鼠及小鼠微卫星引物在社鼠中的跨种扩增

利用微卫星引物在同一属、科、目不同种之间具有通用性的特点,通过PCR扩增、聚丙烯凝胶电泳和银染技术对社鼠(Niviventer confucianus)近缘物种大鼠(Rattus norvegicus)、小鼠(Mus musculus)中已知的70个微卫星位点引物进行跨种扩增,筛选适合社鼠相关研究的多态微卫星引物.结果发现,40个位点引物出现扩增条带,21个位点引物能够稳定扩增,其中15个位点杂合,13个位点具有多态性;PCR扩增的Mg2+浓度主要集中在1.5及2.0 mmol/L,退火温度在50～60℃之间不等.虽然部分扩增产物有影子带的存在,但并不影响等位基因的判读.总体来看,利用大、小鼠的微卫星引物扩增社鼠的微卫星位点是可行的.     

Overexpression of microRNA395c or 395e affects differently the seed germination of Arabidopsis thaliana under stress conditions

The Arabidopsis genome encodes six members of microRNA395 (miR395) family previously determined to regulate the expression of ATP sulfurylase (APS) and the sulfate transporter SULTR2;1. However, the mRNA targets for the individual miR395 family members and the biological consequences produced by target gene regulation of each miR395 remain to be identified. In this study, a transgenic approach was employed to determine the mRNA targets for each miR395 family member as well as the role each member plays in plant growth under abiotic stress conditions. Overexpression of miR395c or miR395e retarded and accelerated, respectively, the seed germination of Arabidopsis under high salt or dehydration stress conditions. Despite a single nucleotide difference between miR395c and miR395e, the cleavage of mRNA targets, APS1, APS3, APS4 and SULTR2;1, was not same in miR395c- and miR395e-overexpressing plants. These results demonstrate that a given miRNA family containing a single nucleotide difference can guide the cleavage of various mRNA targets, thereby acting as a positive or negative regulator of seed germination under stress.     

The Squash Aspartic Proteinase Inhibitor SQAPI Is Widely Present in the Cucurbitales, Comprises a Small Multigene Family, and Is a Member of the Phytocystatin Family

The squash (Cucurbita maxima) phloem exudate-expressed aspartic proteinase inhibitor (SQAPI) is a novel aspartic acid proteinase inhibitor, constituting a fifth family of aspartic proteinase inhibitors. However, a comparison of the SQAPI sequence to the phytocystatin (a cysteine proteinase inhibitor) family sequences showed ∼30% identity. Modeling SQAPI onto the structure of oryzacystatin gave an excellent fit; regions identified as proteinase binding loops in cystatin coincided with regions of SQAPI identified as hypervariable, and tryptophan fluorescence changes were also consistent with a cystatin structure. We show that SQAPI exists as a small gene family. Characterization of mRNA and clone walking of genomic DNA (gDNA) produced 10 different but highly homologous SQAPI genes from Cucurbita maxima and the small family size was confirmed by Southern blotting, where evidence for at least five loci was obtained. Using primers designed from squash sequences, PCR of gDNA showed the presence of SQAPI genes in other members of the Cucurbitaceae and in representative members of Coriariaceae, Corynocarpaceae, and Begoniaceae. Thus, at least four of seven families of the order Cucurbitales possess member species with SQAPI genes, covering ∼99% of the species in this order. A phylogenetic analysis of these Cucurbitales SQAPI genes indicated not only that SQAPI was present in the Cucurbitales ancestor but also that gene duplication has occurred during evolution of the order. Phytocystatins are widespread throughout the plant kingdom, suggesting that SQAPI has evolved recently from a phytocystatin ancestor. This appears to be the first instance of a cystatin being recruited as a proteinase inhibitor of another proteinase family. [Reviewing Editor: Dr. Antony Dean]     

DEFOG: a practical scheme for deciphering families of genes

We developed a novel efficient scheme, DEFOG (for "deciphering families of genes"), for determining sequences of numerous genes from a family of interest. The scheme provides a powerful means to obtain a gene family composition in species for which high-throughput genomic sequencing data are not available. DEFOG uses two key procedures. The first is a novel algorithm for designing highly degenerate primers based on a set of known genes from the family of interest. These primers are used in PCR reactions to amplify the members of the gene family. The second combines oligofingerprinting of the cloned PCR products with clustering of the clones based on their fingerprints. By selecting members from each cluster, a low-redundancy clone subset is chosen for sequencing. We applied the scheme to the human olfactory receptor (OR) genes. OR genes constitute the largest gene superfamily in the human genome, as well as in the genomes of other vertebrate species. DEFOG almost tripled the size of the initial repertoire of human ORs in a single experiment, and only 7% of the PCR clones had to be sequenced. Extremely high degeneracies, reaching over a billion combinations of distinct PCR primer pairs, proved to be very effective and yielded only 0.4% nonspecific products.     

Molecular biology of GABAA receptors

The major type of receptor for the inhibitory neurotransmitter gamma-aminobutyric acid (GABA), called the GABAA receptor, is a member of a gene superfamily of ligand-gated ion channels. This receptor is a hetero-oligomeric protein composed of several distinct polypeptide types (alpha, beta, gamma, and delta). Molecular cloning of these polypeptides reveals that they show 20-40% identity with each other, and 10-20% identity with polypeptides of the nicotinic acetylcholine receptors and strychnine-sensitive glycine receptor. Each polypeptide type is also represented by a family of genes whose members have 60-80% amino acid sequence identity. Regions of conserved and variable amino acid sequence suggest structural and functional domains within each polypeptide. All of the polypeptides when expressed in heterologous cells produce GABA-activated chloride channels, and the different subtypes express different pharmacological properties. The distributions of mRNAs for the different GABAA receptor polypeptides and their subtypes show significant brain regional variation consistent with pharmacological and biochemical evidence for receptor heterogeneity. Subpopulations of GABAA receptors with different cellular and regional locations show differential sensitivity to GABA, to modulators like steroids, to physiological regulation, to disease processes, and to pharmacological manipulation by drugs such as benzodiazepines. The properties of the different subpopulations of GABAA receptors are determined by which one or more of the different polypeptides and their subtypes are expressed in a given cell to produce a variety of different oligomeric protein structures. Molecular cloning techniques have produced rapid advances in understanding the GABAA receptor protein family.     

Rapid detection and sequencing of alleles in the 3'' flanking region of the interleukin-6 gene.

The 3' flanking region of the interleukin 6 gene is polymorphic due to insertions of different size. Within this region lies a sequence of approximately 500 base pairs that is AT rich. Based on flanking sequence information we have constructed oligonucleotides which prime the polymerase chain reaction (PCR) and amplify this AT rich region. The amplification products visualized by agarose gel electrophoresis gave fragment sizes for both homozygous and heterozygous individuals that were concordant with those observed by conventional genomic blotting techniques. Alleles that could not be typed by Southern analysis were resolved with this approach. These results illustrate the value of PCR for the rapid detection of length polymorphisms such as those due to variable numbers of tandem repeats. In contrast to RFLP analysis this procedure takes less than a day to perform, is cheaper, avoids the use of radioactivity and requires far less substrate DNA. Three different human alleles were sequenced, and differences were detected that were due to both large duplications and loss of one or two bases, suggesting that AT rich regions identify highly polymorphic loci. The same primers also amplified non-human primate DNA, allowing a comparison of the human sequence with that of the common chimpanzee and baboon.     

Cloning, sequencing and tissue distribution of a candidate G protein-coupled receptor from rat pituitary gland.

A new member of the family of G protein-coupled receptors has been isolated from a rat pituitary cDNA library by the polymerase chain reaction (PCR) using degenerate oligonucleotide primers. The corresponding protein sequence shows seven transmembrane domains and contains conserved regions of homology characteristic of the G protein-coupled class of receptors. The novel receptor mRNA is expressed in the brain, pituitary gland and testis, and has been localized by in situ hybridization in discrete regions of the brain. Expression of the receptor mRNA in Xenopus oocytes and in transfected mammalian cells has not yet permitted identification of the corresponding ligand for this receptor.