Isolation of microsatellites in a parthenogenetic lizard Menetia greyii (Scincidae) and their utility in sexual species of the Menetia greyii complex

Tetra and tri‐nucleotide microsatellite loci were isolated from a parthenogenetic form of the Australian lizard Menetia greyii, using an enrichment method with polymerase chain reaction (PCR)‐based colony screening. Primers for 23 loci were designed and 11 of these loci amplified well in a panel of 10 parthenogenetic individuals from a single population. Seven loci were further characterized and six successfully amplified and were polymorphic in all five sexual species of the Menetia greyii complex they were tested in. These loci will be used to investigate the parental ancestry and clonal diversity of various parthenogenetic forms within the Menetia greyii species complex.     

A mathematical epidemiological model of gram-negative Bartonella bacteria: does differential ectoparasite load fully explain the differences in infection prevalence of Rattus rattus and Rattus norvegicus?

We postulate that the large difference in infection prevalence, 24% versus 5%, in R. norvegicus and R. rattus, respectively, between these two co-occurring host species may be due to differences in ectoparasite and potential vector infestation rates. A compartmental model, representative of an infectious system containing these two Rattus species and two ectoparasite vectors, was constructed and the coefficients of the forces of infection determined mathematically. The maximum difference obtained by the model in the prevalence of Bartonella in the two Rattus species amounts to 4.6%, compared to the observed mean difference of 19%. Results suggest the observed higher Bartonella infection prevalence in Rattus norvegicus compared to Rattus rattus, cannot be explained solely by higher ectoparasite load. The model also highlights the need for more detailed biological research on Bartonella infections in Rattus and the importance of the flea vector in the spread of this disease.     

Isolation and characterization of microsatellite loci from yellowtail Seriola quinqueradiata and cross‐species amplification within the genus Seriola

We developed five microsatellite primer pairs for the yellowtail Seriola quinqueradiata. The loci were highly polymorphic, with eight to 14 alleles per locus, and can be used to study kinship and/or population structure. Many of these primer pairs amplified polymorphic loci in cross‐species amplification tests for two other Seriola species (S. lalandi and S. dumerili).     

Biochemical differentiation among karyotypic forms of Australian Rattus

Isozyme electrophoresis of up to 55 loci, and microcomplement fixation of albumin were used to assess the extent of structural gene divergence among karyotypic forms of Australian Rattus. The results show that the Australian Rattus are monophyletic with respect to R. rattus or R. norvegicus. Within the Australian Rattus, rates of chromosomal evolution have varied enormously, the highest rates being found among members of the R. sordidus group, where extensive chromosomal repatterning has occurred with little or no structural gene divergence.     

Isolation and characterization of simple sequence repeat loci in Rubus hochstetterorum and their use in other species from the Rosaceae family

The identification of microsatellite loci in Rubus hochstetterorum provides an important tool for the characterization and conservation of wild populations of this species. Cross‐species amplification of markers may be of particular interest for the study of other Rubus species. In this study, 41 simple sequence repeat markers were identified in a genomic library of R. hochstetterorum. Fifteen of the identified microsatellite loci were characterized in a set of 30 samples and revealed to be polymorphic with three to 19 alleles per locus. All the identified markers allowed cross‐species amplification in at least one of the other three tested species from the Rosaceae family.     

Gut microflora may facilitate adaptation to anthropic habitat: A comparative study in Rattus

Anthropophilic species (“commensal” species) that are completely dependent upon anthropic habitats experience different selective pressures particularly in terms of food than their noncommensal counterparts. Using a next‐generation sequencing approach, we characterized and compared the gut microflora community of 53 commensal Rattus rattus and 59 noncommensal Rattus satarae captured in 10 locations in the Western Ghats, India. We observed that, while species identity was important in characterizing the microflora communities of the two Rattus hosts, environmental factors also had a significant effect. While there was significant geographic variation in the microflora of the noncommensal R. satarae, there was no effect of geographic distance on gut microflora of the commensal R. rattus. Interestingly, host genetic distance did not significantly influence the community in either Rattus hosts. Collectively, these results indicate that a shift in habitat is likely to result in a change in the gut microflora community and imply that the gut microflora is a complex trait, influenced by various parameters in different habitats.     

Polymorphic microsatellite markers for the gliding marsupials Petaurus australis and Petaurus breviceps

Habitat destruction is causing population decline of many hollow dependent species such as gliding marsupials of the Family Petauridae. Three petaurid species are now listed in some Australian states as either threatened, rare or vulnerable, precipitating a need for information on their basic biology and population structure. We isolated and characterized three polymorphic microsatellite loci from the yellow‐bellied glider (Petaurus australis) and six polymorphic microsatellite loci from the sugar glider (P. breviceps). Per‐locus heterozygosities range from 42%–92%, and cross‐species amplification studies show that between five and seven loci are polymorphic in the two target species as well as a related species P. norfolcensis.     

Isolation and characterization of microsatellites in Leuciscus cephalus (Cypriniformes,Cyprinidae) and cross‐species amplification within the family Cyprinidae

Thirteen polymorphic microsatellites were isolated from Leuciscus cephalus, a widespread cyprinid species with great ecological tolerance. Together with the cross‐species amplification of six additional loci originally published for three cyprinid fish species, we optimized a multiplex panel for L. cephalus allowing the genotyping of 19 polymorphic loci. Number of alleles and heterozygosity per locus in a sample of 20 fish individuals ranged from two to 16 and from 0.05 to 0.90, respectively. These primers will be useful in determining the population structure of L. cephalus. In addition, successful cross‐amplification was obtained for several species of Cyprinidae.     

Seventy‐five EST‐linked Atlantic salmon (Salmo salar L.) microsatellite markers and their cross‐amplification in five salmonid species

An Atlantic salmon (Salmo salar L.) expressed sequence tag (EST) database consisting of 58 146 ESTs was screened for microsatellite sequences. Subsequent development of 75 polymorphic EST‐associated microsatellite markers in this species is described together with cross‐species amplification results of 133 gene‐associated tandem repeat markers in five salmonid species (Salmo trutta, Oncorhynchus mykiss, Salvelinus aplinus, Thymallus thymallus, Coregonus lavaretus). The number of alleles among EST‐linked microsatellites in Atlantic salmon ranged from two to 41 with an average of 12 alleles per locus. Cross‐species amplification resulted in detection of a total of 111 polymorphic locus‐species combinations (12–32 loci per species).     

Polymorphic microsatellite markers for chromosomal races of Australian morabine grasshoppers (Vandiemenella,viatica species group)

Chromosomally diverse Australian morabine grasshoppers (genus Vandiemenella, viatica species group) have parapatric distributions and occasionally hybridize at contact zones. To investigate population genetic structure and the extent of gene flow between chromosomal races/species of Vandiemenella, we isolated and characterized nine polymorphic microsatellite loci and one insertion/deletion polymorphic locus. The numbers of alleles per locus ranged from two to 34 across three chromosomal races on Kangaroo Island, South Australia, and expected heterozygosity within races ranged from 0.00 to 0.94. Inter‐taxon amplification was generally successful within Vandiemenella, but not for other morabine genera.     

Cross-species amplification of 44 microsatellite loci developed for Chaetodon trifascialis, C. lunulatus and C. vagabundus in 22 related butterflyfish species

Forty‐four microsatellite primers developed for three species of butterflyfish were cross‐tested against 22 related confamilial species. Amplification success and cross‐species transferability of these markers were moderately high. Between 24 and 37 loci were amplified successfully in each species, with a mean success rate per species of 71.7% (± 1.8 SE). Rates of amplification success were comparable among primers designed for the three source species, ranging from a mean success rate per species of 16.9 loci (± 0.8 SE) for Chaetodon trifascialis source loci to 13.7 loci (± 1.5 SE) for C. vagabundus source loci. Polymorphism rates were high (76.1%± 3.1 SE of all successfully amplified loci), and 10 loci were polymorphic in all successfully amplified species (Tri14, B11, C5, D3, D113, D6, D117, D120, D111, D118). The number of alleles per polymorphic locus ranged from 2 to 8, and the average number of alleles across all polymorphic loci and all species was 3.6 (± 0.07 SE). Polymorphism rates were higher overall in primers designed for C. vagabundus (89.9%± 3.9 SE). Overall cross‐testing success was lowest for Heniochus chrysostomus, the most phylogenetically divergent species. The significant cross‐testing reported here provides a valuable resource that will enable population genetics studies to be undertaken on a range of butterflyfishes without the need for expensive and time‐consuming de novo microsatellite development.     

Isolation and identification of 21 microsatellite loci in the Copper redhorse (Moxostoma hubbsi; Catostomidae) and their variability in other catostomids

Catostomidae represent an important family of freshwater fishes mainly distributed in North America, but also found in Eurasia. This paper describes the development of microsatellite DNA markers for a highly threatened member of this family, the Copper redhorse (Moxostoma hubbsi), as well as cross‐catostomids amplifications. 168 tetra‐nucleotide loci were screened to develop 21 polymorphic markers, with an average number of 8.5 alleles per locus and observed heterozygosity ranging between 0.52 and 1.00. Successful amplification was obtained for 12 other members of the family at between seven to 19 loci, with between two to 18 loci being polymorphic per species.     

Characterization of microsatellite loci isolated from the blacktip shark and their utility in requiem and hammerhead sharks

We isolated and characterized 16 microsatellite loci from the blacktip shark, Carcharhinus limbatus, and tested cross‐species amplification in 11 Carcharhinus species and five additional shark genera. Thirty‐six (1.6%) and 180 (48%) colonies were positive for dinucleotide repeat motifs from unenriched and enriched libraries, respectively. Heterozygosities of polymorphic loci ranged from 0.04 to 0.96 with two to 22 alleles per locus. Amplification products were observed at nine to 13 loci (five to 11 of which where polymorphic) in 10 Carcharhinus species. Several loci were also polymorphic in each of the additional genera examined.     

Microsatellites from Clarias batrachus and their polymorphism in seven additional catfish species

We isolated 18 novel microsatellite loci from the walking catfish (Clarias batrachus), and examined their cross‐amplification in seven additional catfish species from three families. Sixteen of the 18 microsatellites were polymorphic in the source species (allele number: 2–10/locus and expected heterozygosity: 0.30–0.87). Moreover, nine of these 18 primer pairs cross‐amplified specific and polymorphic products from the genome of at least six of the seven other catfish species tested. However, the success rate of cross‐species amplification varied from locus to locus, indicating that cross‐species amplification of microsatellites is locus‐dependent.     

Dinucleotide repeat microsatellite markers for buck’s‐horn plantain (Plantago coronopus)

Eleven polymorphic microsatellite loci were obtained from a GA enriched genomic library, constructed from DNA of buck’s‐horn plantain (Plantago coronopus). The microsatellite loci were tested on 24 genotypes. These plants were collected from meadows along the coast, located on 11 sites ranging from the southwest to the northeast of the Netherlands. In this set of plants the isolated microsatellites were highly polymorphic with 3–24 alleles per locus and a maximum observed heterozygosity of 0.91. Some of the microsatellite loci also showed amplification in two other plantain species (P. lanceolata and P. maritima).     

Isolation and characterization of microsatellite loci in the ant Myrmica scabrinodis

Five polymorphic microsatellite loci were developed for the ant Myrmica scabrinodis using a magnetic bead hybridization selection protocol. The number of alleles per locus varied between three and six. Cross‐species amplification of four of the loci yielded positive amplification products in four Myrmica species, suggesting their general suitability for microsatellite analysis within this taxonomic group.     

Isolation and characterization of 125 microsatellite DNA markers in the blacklip abalone,Haliotis rubra

Australian abalone species are subject to wild harvest and aquaculture production. This study characterized 125 polymorphic microsatellite markers in the blacklip abalone, Haliotis rubra, and evaluated cross‐species amplification in Haliotis laevigata and Haliotis coccoradiata. Segregation analysis of a mapping family revealed non‐amplifying polymerase chain reaction null alleles at 34 loci. Cross‐species amplification was achieved for 89 loci.     

Characterization of microsatellite loci in village indigobirds Vidua chalybeata and cross‐species amplification in estrildid and ploceid finches

We characterized 11 microsatellite primer pairs for the village indigobird Vidua chalybeata. The loci were highly polymorphic, with 7–13 alleles per locus. Gene diversity, estimated as expected heterozygosity, ranged from 0.52 to 0.86, and was generally matched by levels of observed heterozygosity (0.49–0.91). Many of these primer pairs amplified polymorphic loci in cross‐species amplification trials with a variety of estrildid and ploceid finches and a sparrow, Passer griseus. These primers will be valuable for genetic analyses of the brood parasitic indigobirds and whydahs (genus Vidua) as well as other Old World finches.     

A multiplex set of microsatellite markers for the scarlet rosefinch (Carpodacus erythrinus)

Cardueline finches have become important models in studies of sexual selection and evolution of carotenoid‐based ornamentation. Here, we describe eight new polymorphic microsatellites isolated from the Scarlet rosefinch (Carpodacus erythrinus) and four from the House finch (Carpodacus mexicanus). Together with the cross‐species amplification of additional loci, originally published for two species of songbirds, we optimized a multiplex panel for C. erythrinus allowing genotyping of 22 polymorphic loci. Number of alleles and heterozygosity per locus in a sample of 34 individuals ranged from three to 38 and from 0.27 to 0.94, respectively.     

Identification of 15 polymorphic microsatellite loci in the Príncipe seedeater (Serinus rufobrunneus) and assessment of their utility in nine other Serinus species (Fringillidae,Aves)

We tested 74 passerine microsatellite loci for cross‐amplification in the Príncipe seedeater (Serinus rufobrunneus), and identified 15 loci that were both polymorphic and easy to score. In a sample of 113 individuals, the number of alleles ranged between three and 71. Three loci deviated from Hardy–Weinberg equilibrium after correcting for multiple tests, and one locus had high estimated null allele frequency. These 15 loci were highly successful in amplifying polymorphic products also in nine other Serinus species.