Construction of microarrays for genotyping of DQA using unmodified 45-mer oligonucleotide

The human leukocyte antigen (HLA) class II system is strongly connected to immunological response and its compatibility between tissues is critical in transplantation. The simple robust typing analyses of HLA genes are extremely important. In this paper, we developed an approach based on microarray technology for genotyping of DQA gene. The microarrays were constructed with a total 31 unmodified 45-mer oligonucleotide. The second exon of DQA gene was amplified, and allowed to hybridize with the array. DQA genotypes were assigned by quantitative analysis of the hybridization results. The arrays were evaluated by DQA genotyping of nine reference samples and 120 clinical samples. The results demonstrate that the genotyping accuracy/concordance achieved 97.5% compared with the direct DNA sequencing. Although our methods did not perform high-resolution genotyping, it could be an alternative for serological typing in routine medical practice.     

Improved loop-mediated isothermal amplification for HLA-DRB1 genotyping using RecA and a restriction enzyme for enhanced amplification specificity

Our aim was to test and develop the use of loop-mediated isothermal amplification (LAMP) for HLA-DRB1 genotyping. Initially, we found that the conventional LAMP protocols produced non-specific and variable amplification results depending on the sample DNA conditions. Experiments with different concentrations of DNase in the reaction mixture with and without T4 DNA ligase-treated samples suggested that the strand displacement activity of DNA polymerase in LAMP, at least in part, started from randomly existing nicks because T4 DNA ligase treatment of sample DNA resulted in no amplification. Such non-specific amplification due to the randomly existing nicks was improved specifically by the addition of RecA of Escherichia coli and a restriction enzyme, for example, PvuII, to the reaction mixture. We applied the modified LAMP (mLAMP) (1) to detect specific HLA-DRB1 alleles by using only specific primers for amplification or (2) for genotyping in multiple samples with a multi-probe typing system. In the latter case, HLA-DRB1 genotyping was developed by combining the mLAMP with amplicon capture using polymorphic region-specific probes fixed onto the bottom of the wells of a 96-well plate and the captured amplicons visualized as a black spot at the bottom of the well. The multi-probe human leukocyte antigen (HLA) typing method and the specific HLA allele detection method could be applied for point-of-care testing due to no requirement for specific and expensive instruments.     

Effects of storage type and time on DNA amplification success in tropical ungulate faeces

The present study compares the effect of three storage media (silica, RNAlater®, ethanol) and time to extraction (1 week, 1 month and 3 months) on mitochondrial and nuclear marker amplification success in faecal DNA extracts from a sympatric community of small to medium‐sized Central African forest ungulates (genera Cephalophus, Tragelaphus, Hyemoschus). The effect of storage type and time on nuclear DNA concentrations, genotyping errors and percentage recovery of consensus genotypes was also examined. Regardless of storage method, mitochondrial and nuclear amplification success was high in DNA extracted within the first week after collection. Over longer storage periods, RNAlater yielded better amplification success rates in the mitochondrial assay. However, samples stored on silica showed (i) highest nuclear DNA concentrations, (ii) best microsatellite genotyping success, (iii) lowest genotyping errors, and (iv) greatest percentage recovery of the consensus genotype. The quantity of nuclear DNA was generally a good predictor of microsatellite performance with 83% amplification success or greater achieved with sample DNA concentrations of ≥ 50 pg/µL. If faecal DNA samples are to be used for nuclear microsatellite analyses, we recommend silica as the best storage method. However, for maximum mitochondrial amplification success, RNAlater appears to be the best storage medium. In contrast, ethanol appeared inferior to the other two methods examined here and should not be used to store tropical ungulate faeces. Regardless of storage method, samples should be extracted as soon as possible after collection to ensure optimal recovery of DNA.     

Mamu-DQA1 allele and genotype frequencies in a randomly sampled breeding colony of rhesus macaques (Macaca mulatta)

We studied the allelic and genotypic distribution of the major histocompatibility class-II locus DQA1 observed in a random sample of Indian rhesus macaques (Macaca mulatta) from a major breeding facility in the United States. The DNA was isolated from whole blood samples collected between 1991 and 1994 from 65 Indian rhesus monkeys. Polymerase chain reaction-restriction fragment length polymorphism analysis (PCR-RFLP), which involves use of specific amplification of DQA1 exon 2 and subsequent restriction digestion of the 242-base pair fragment, was used to genotype the animals for the 20 known macaque (Mamu)-DQA1 alleles. Frequencies for four alleles (DQA1*240x, *2502, *2503 and *0102) differed significantly from those reported in a smaller sample of rhesus macaques from the German Primate Center. The modest genetic survey of Mamu-DQA1 genotypes presented here will be particularly useful in designing epidemiologic studies that investigate associations between immunogenetic background and disease susceptibility in macaque models of human disease.     

Reliable noninvasive genotyping: fantasy or reality?

Noninvasive genotyping has not gained wide application, due to the notion that it is unreliable, and also because remedial measures are time consuming and expensive. Of the wide variety of noninvasive DNA sources, dung is the most universal and most widely used in studies. We have developed collection, extraction, and amplification protocols that are inexpensive and provide a high level of success in amplifying both mitochondrial and nuclear DNA from dung. Here we demonstrate the reliability of genotyping from elephant dung using these protocols by comparing results from dung-extracted DNA to results from blood-extracted DNA. The level of error from dung extractions was only slightly higher than from blood extractions, and conducting two extractions from each sample and a single amplification from each extraction was sufficient to eliminate error. Di-, tri-, and tetranucleotide loci were equally reliable, and low DNA quantity and quality and PCR inhibitors were not a major problem in genotyping from dung. We discuss the possible causes of error in genotyping with particular reference to noninvasive samples and suggest methods of reducing such error.     

A test of the efficacy of whole‐genome amplification on DNA obtained from low‐yield samples

Conservation and population genetic studies are sometimes hampered by insufficient quantities of high quality DNA. One potential way to overcome this problem is through the use of whole genome amplification (WGA) kits. We performed rolling circle WGA on DNA obtained from matched hair and tissue samples of North American red squirrels (Tamiasciurus hudsonicus). Following polymerase chain reaction (PCR) at four microsatellite loci, we compared genotyping success for DNA from different source tissues, both pre‐ and post‐WGA. Genotypes obtained with tissue were robust, whether or not DNA had been subjected to WGA. DNA extracted from hair produced results that were largely concordant with matched tissue samples, although amplification success was reduced and some allelic dropout was observed. WGA of hair samples resulted in a low genotyping success rate and an unacceptably high rate of allelic dropout and genotyping error. The problem was not rectified by conducting PCR of WGA hair samples in triplicate. Therefore, we conclude that WGA is only an effective method of enhancing template DNA quantity when the initial sample is from high‐yield material.     

Mitochondrial DNA variation in Chinese and Indian rhesus macaques (Macaca mulatta)

DNA was extracted from the buffy coats or serum of 212 rhesus macaques (Macaca mulatta) sampled throughout the species' geographic range. An 835 base pair (bp) fragment of mitochondrial DNA (mtDNA) was amplified from each sample, sequenced, aligned, and used to estimate genetic distances from which phylogenetic trees were constructed. A tree that included sequences from rhesus macaques whose exact origins in China are known was used to determine the regional origin of clusters of haplotypes, or haplogroups, defined by the trees. Indian rhesus sequences formed one large homogeneous haplogroup with very low levels of nucleotide diversity and no geographic structure, and a second much smaller haplogroup apparently derived from Burma. The sequences from Burma and eastern and western China were quite divergent from those in the major haplogroup of India. Each of these sequences formed separate clusters of haplotypes that exhibited far greater nucleotide diversity and/or population structure. Correspondingly, sequences from Indian rhesus macaques that are considered to represent different subspecies (based on morphological differences) were intermingled in the tree, while those from China reflected some, but not all, aspects of subspecific taxonomy. Regional variation contributed 72% toward the paired differences between sequences in an analysis of molecular variance (AMOVA), and the average differences between the populations of eastern and western China were also statistically significant. These results suggest that Indian and Chinese rhesus macaques were reproductively isolated during most, if not all, of the Pleistocene, during which time Indian rhesus macaques experienced a severe genetic bottleneck, and that some gene flow westward into India was subsequently reestablished. Samples from breeding centers in three different provinces of China included sequences from rhesus macaques that originated in both eastern (or southern) and western China, confirming anecdotal reports that regional breeding centers in China exchange breeding stock. Genetic differences among rhesus macaques (even those acquired from the same regional breeding center) that originate in different geographic regions and are employed as subjects in biomedical experiments can contribute to phenotypic differences in the traits under study.     

The effect of sample age and storage method on DNA yield and microsatellite amplification from baboon (Papio ursinus) faecal samples

Sampling methods that allow DNA collection without the physical handling of animals are popular in conservation genetics, but DNA isolated from faecal samples may be degraded, potentially leading to erroneous microsatellite genotyping results. We collected baboon faecal samples from fresh to 1-week post-defecation in a controlled sampling environment and preserved these using three storage techniques. After DNA isolation and quantification, the samples were genotyped at eight microsatellite loci. Quantitatively, DNA yield was highest when using silica as storage medium. However, microsatellite amplification from samples stored in 95% ETOH were most successful, with 100% success for fresh samples and dropping only marginally to 87.5% of loci for samples collected after 1 week. This disparity between quantitative and qualitative results suggests that total DNA concentrations do not necessarily provide a reliable indication of the amount of target DNA present in a DNA isolate. Our results nevertheless confirm that microsatellite fragments can successfully be amplified from faecal samples up to 1 week post-defecation, with careful selection of storage protocols and loci.     

A new method for DNA extraction from feces and hair shafts of the South China tiger (Panthera tigris amoyensis)

It is commonly known that tigers (Panthera tigris) groom themselves by licking their coats, which leads to an abundance of hairs in their feces. These hairs are designated specially as “fecal hairs”. In our study, in order to explore fecal hairs potential as a DNA source for genetic analysis, 55 fecal hair samples were collected from 23 captive South China tigers (P. t. amoyensis). According to the amplification of mitochondrial primers loop F and loop R, DNA quality of noninvasive samples were grouped into three grades: grade I—the highest-quality DNA, grade II—high-quality DNA, and grade III—poor-quality DNA. No failed amplifications on microsatellite primers and only 0.27% genotyping errors occurred with grade I fecal hair DNA, as compared with 9.4% failed amplifications on microsatellite primers and 9.5% genotyping errors with grade II fecal hair DNA. It was found that 25.45% of fecal hair DNA was grade I and 65.45 and 10.00% of fecal hair DNA were grades II and III, respectively, as compared with 4.35% grade I fecal DNA and 34.78 and 60.87% grades II and III fecal DNA, respectively. Thus, higher-quality DNA can be extracted from fecal hairs than feces. In addition, DNA could be extracted from hair shafts of tigers and a minimum of 2000 hair shafts were required for visible DNA bands on a 1% agarose gel. These findings demonstrate that fecal hairs may serve as a convenient and reliable genomic DNA source for genotype analysis. Zoo Biol 28:49–58, 2009. © 2008 Wiley-Liss, Inc.     

Genotyping success of historical Eurasian lynx (Lynx lynx L.) samples

Historical samples, like tanned hides and trophy skulls, can be extremely important for genetic studies of endangered or elusive species. Selection of a sampling protocol that is likely to provide sufficient amount and quality of DNA with a minimum damage to the original specimen is often critical for a success of the study. We investigated microsatellite genotyping success of DNA isolated from three different types of Eurasian lynx historical samples. We analysed a total of 20 microsatellite loci in 106 historical samples from the endangered Dinaric lynx population, established from re-introduction of three pairs of lynx in 1973 from Slovakian Carpathians. Of the three tested sample types, turbinal bone and septum from the nasal cavity of the trophy skulls had the lowest percentage of samples successfully genotyped for all 20 microsatellite loci. Footpad samples, collected using a cork drill, exhibited better results in polymerase chain reaction amplification and genotyping than samples of footpad epidermis cut with a scalpel. We report simple and efficient sampling protocols, which could be widely applied for future studies utilizing historical samples.     

Factors affecting success of PCR amplification of microsatellite loci from otter faeces

We investigated the effect of multiple variables on the amplification success rate of microsatellite DNA extracted from faeces of wild Eurasian otters. The success rate was affected by (i) type of sample, with higher success rates in anal jelly samples than faeces, and (ii) temperature, with a negative effect of increased temperature at time of collection. To increase the effectiveness of microsatellite genotyping of otter faeces, we recommend collecting samples in cold months and early in the morning, preferably in a frozen state, and the collection of anal jelly samples, or the jelly part from faeces, whenever possible.     

DNA from formalin-fixed tissue: extraction or repair? That is the question

Establishing effective DNA-based protocols for use on archival material fixed in formaldehyde (formalin) is a particularly challenging task. Formalin fixation induces cross-linking with nucleic acids and proteins, thereby reducing the amount and quality of the extracted DNA. Previous attempts have primarily focused on optimizing DNA extraction protocols. Here we focus on the use of enzymes capable of in vitro repair of DNA extracts prior to amplification of the nucleic acids by the polymerase chain reaction (PCR). The amplification success of mitochondrial DNA was greater using the repair enzyme assay (56%) than with the regular PCR assay (20%), and even more convincing results were obtained with the amplified nuclear ribosomal region (91% versus 21%). These results indicate that in vitro repair of DNA damage (depurinated sites, strand nicks and base modifications) increases the number of samples that amplify, amplify to a greater extent and amplify fewer ancillary bands and that DNA repair has been overlooked as a way of improving the efficiency of molecular methods used on formalin-fixed samples. Fidelity has not been specifically investigated, but preliminary results indicate that misincorporation is not a major problem.     

A microagglutination test for blood typing rhesus monkeys, Macaca mulatta

Summary. We have developed a microagglutination test for typing rhesus monkey erythrocytes that is sensitive, accurate and easy to perform. The technique requires only μ1 quantities of antiserum and cells, and agglutination is easily detected using an inverted microscope. An advantage of this technique is that the typing plates can be stored at -70°C without loss of activity. The results of typing over 400 rhesus blood samples with this technique were 95% concordant with results using the standard microtitre agglutination technique. Preliminary results indicate that this test is also adaptable to typing human blood.     

A microagglutination test for blood typing rhesus monkeys, Macaca mulatta

We have developed a microagglutination test for typing rhesus monkey erythrocytes that is sensitive, accurate and easy to perform. The technique requires only microliter quantities of antiserum and cells, and agglutination is easily detected using an inverted microscope. An advantage of this technique is that the typing plates can be stored at -70 degrees C without loss of activity. The results of typing over 400 rhesus blood samples with this technique were 95% concordant with results using the standard microtitre agglutination technique. Preliminary results indicate that this test is also adaptable to typing human blood.     

Two-step multiplex polymerase chain reaction improves the speed and accuracy of genotyping using DNA from noninvasive and museum samples

Many studies in molecular ecology rely upon the genotyping of large numbers of low‐quantity DNA extracts derived from noninvasive or museum specimens. To overcome low amplification success rates and avoid genotyping errors such as allelic dropout and false alleles, multiple polymerase chain reaction (PCR) replicates for each sample are typically used. Recently, two‐step multiplex procedures have been introduced which drastically increase the success rate and efficiency of genotyping. However, controversy still exists concerning the amount of replication needed for suitable control of error. Here we describe the use of a two‐step multiplex PCR procedure that allows rapid genotyping using at least 19 different microsatellite loci. We applied this approach to quantified amounts of noninvasive DNAs from western chimpanzee, western gorilla, mountain gorilla and black and white colobus faecal samples, as well as to DNA from ~100‐year‐old gorilla teeth from museums. Analysis of over 45 000 PCRs revealed average success rates of > 90% using faecal DNAs and 74% using museum specimen DNAs. Average allelic dropout rates were substantially reduced compared to those obtained using conventional singleplex PCR protocols, and reliable genotyping using low (< 25 pg) amounts of template DNA was possible. However, four to five replicates of apparently homozygous results are needed to avoid allelic dropout when using the lowest concentration DNAs (< 50 pg/reaction), suggesting that use of protocols allowing routine acceptance of homozygous genotypes after as few as three replicates may lead to unanticipated errors when applied to low‐concentration DNAs.     

Multiple Displacement Amplification for Generating an Unlimited Source of DNA for Genotyping in Nonhuman Primate Species

We evaluated a whole genome amplification method—multiple displacement amplification (MDA)—as a means to conserve valuable nonhuman primate samples. We tested 148 samples from a variety of species and sample sources, including blood, tissue, cell-lines, plucked hair and noninvasively collected semen. To evaluate genotyping success and accuracy of MDA, we used routine genotyping methods, including short tandem repeat (STR) analysis, denaturing gradient gel electrophoresis (DGGE), Alu repeat analysis, direct sequencing, and nucleotide detection by tag-array minisequencing. We compared genotyping results from MDA products to genotypes generated from the original (non-MD amplified) DNA samples. All genotyping methods showed good results with the MDA products as a DNA template, and for some samples MDA improved genotyping success. We show that the MDA procedure has the potential to provide a long-lasting source of DNA for genetic studies, which would be highly valuable for the primate research field, in which genetic resources are limited and for other species in which similar sampling constraints apply.     

Procedures to genotype problematic non-invasive otter (Lutra lutra) samples

Non-invasive genetics is a powerful tool in wildlife research and monitoring, especially when dealing with elusive and rare species such as the Eurasian otter (Lutra lutra). Nevertheless, otter DNA obtained from scats and anal secretions appears to be exposed to very quick degradation processes, and the success rate in DNA amplification is lower than in other carnivores. We collected 191 samples from April to September 2011 along the river Sangro basin (Italy) which was recently re-colonized by the Eurasian otter. Using two sets of microsatellite loci (six Lut and seven OT loci), we investigated the influence of sample type and age, collection time, storage time, temperature and humidity on genotyping success and amplification success. We also tested the efficacy of different DNA extraction kits and storage buffer mediums. Finally, we compared amplification success rate, allelic dropout and false allele rates for each locus. We obtained a mean amplification success rate of 79.0 % and a genotyping success rate of 35.1 %. Fresh pure jellies yielded the highest amplification success and genotyping rate. Six microsatellite loci should be theoretically sufficient to distinguish the individual unrelated otters (PID?=?0.001), while 13 loci were needed to distinguish sibling otters (PID_sibs?=?0.002) in our population. We identified 11 otters, and molecular sexing ascertained the presence of five males, four females and two uncertain individuals. Generalized linear models highlighted a significant influence of sample type and age, temperature and humidity both on genotyping and amplification success.     

Evaluation of fecal DNA preservation techniques and effects of sample age and diet on genotyping success

Optimal collection and preservation protocols for fecal DNA genotyping are not firmly established. We evaluated 3 factors that influence microsatellite genotyping success of fecal DNA extracted from coyote (Canis latrans) scats: 1) age of scat, 2) preservative, and 3) diet content. We quantified genotyping success by comparing rates of allelic dropout, false alleles, and failed amplifications among consensus genotypes. We used a panel of 6 microsatellite loci to genotype 20 scat samples, each of which was subjected to 3 age (1 day, 5 days, and 10 days post-deposition) and 3 preservation (DET buffer, 95% ethanol [EtOH], and lysis buffer) treatments. Both sample age and storage buffer had a significant effect on success and reliability. Ethanol and DET buffer preserved fecal samples with similar efficiency, and both were superior to lysis buffer. Our analysis of DNA degradation rates revealed that samples collected as early as 5 days of age yielded DNA that was highly degraded relative to samples collected on day 1. We tested the influence of dietary remains on microsatellite genotyping by using scat samples consisting predominantly of insect prey (n = 5), mammalian prey (n = 9), or the remains of juniper (Juniperus spp.) berries (n = 6) and compared EtOH and DET buffer preservation efficacy. We observed a significant interaction effect between storage buffer and diet for the probability of a false allele in a polymerase chain reaction (PCR), suggesting that the optimal preservation technique depended on the food remains comprising the scat. Scats comprised of juniper berry remains were more reliably genotyped when preserved in DET than EtOH. Mammalian prey-based scats were more reliable when stored in EtOH than DET buffer. Insect-predominant scats were preserved in EtOH and DET buffer with similar efficiency. Although accurate and reliable results can be obtained from scats collected at ≥5 days of age, we suggest sampling design to include collection of scats <5 days of age to minimize field and laboratory expenses. We suggest EtOH preservation for scats of obligate carnivores and of facultative carnivores with a diet consisting primarily of mammals. We suggest DET buffer preservation for animals with a diet consisting of plant-derived foods. Lysis buffer protocols that we employed should not be used for fecal DNA preservation. © 2011 The Wildlife Society.     

An optimisation approach to increase DNA amplification success of otter faeces

Faeces have proved to be a suitable non-invasive DNA source for microsatellite analysis in wildlife research. For the success of such studies it is essential to obtain the highest possible PCR amplification success rate. These rates are still relatively low in most carnivorous species, especially in the otter (Lutra lutra). We therefore optimised the entire microsatellite genotyping process by combining our findings with results from previous studies to gain a high rate of reliable genotypes. We investigated the influence of otter faecal quality in relation to the quantity of slimy secretions and three levels of storage periods at ?20°C on amplification success. Further, we tested the cost-effective and time-saving Chelex extraction method against the profitable QIAamp^® DNA Stool Kit (Qiagen), and compared three PCR methods - a standard single-step PCR protocol, a single-locus two-step PCR procedure and a multiplex two-step PCR procedure - regarding success rate and genotyping errors. The highest amplification success rate (median: 94%; mean: 78%) was achieved using faecal samples consisting only of jelly extracted with the QIAamp^® DNA Stool Mini Kit (Qiagen) immediately after collection and amplified following the time and cost efficient multiplex two-step PCR protocol. The two-step procedure, also referred to as pre-amplification approach, turned out to be the main improvement as it increases amplification success about 11% and reduces genotyping errors about 53%, most notably allelic dropouts.