Endocrine regulations of reproductive seasonality, follicular development and incubation in Magang geese

This study investigated the regulatory mechanisms of seasonal breeding, developments of ovarian follicles and incubation in Magang geese, a short day breeding bird. Throughout the year, plasma PRL concentrations increased in non-breeding season in spring and summer (from April to early August), and remained low in the rest of the year, while LH concentrations peaked in August and September and remained low in non-breeding season (March to June). Lengthening photoperiod increased PRL and decreased LH secretions, which inhibited follicular development, terminated lay and induced moulting, while shortening photoperiod decreased PRL and increased LH secretion and reinitiated lay. Long photoperiod stimulated PRL secretion occurred with increased gene expressions of PRL in the pituitary gland and VIP in the hypothalamus, but inhibition of LH secretion was without decreases in gene expressions of LH beta subunit and GnRH. Under breeding conditions, terminating incubation decreased PRL but increased LH concentrations and resumed lay in 24 days following recruitment of about 10 large white follicles into hierarchical development. Plasma concentrations of progesterone and inhibin peaked at peak lay, whereas LH concentrations exhibited a bi-phasic pattern with troughs at peak lay and incubation when PRL concentrations were high. Ninety percent geese exhibited incubation behaviour after laying one clutch of approximately eight eggs in approximately 30 days. In conclusion the seasonal reproductive activities in Magang geese is directly inhibited by long photoperiod and directly stimulated by short photoperiod via PRL and LH secretions, whose interplays also cause occurrences of four to five lay and incubation cycles in the breeding season.

Molecular cloning and characterisation of the Magang goose prolactin gene

In studying the roles of prolactin in regulation of seasonal reproduction, incubation, broodiness and laying performance in goose, the goose PRL gene was cloned in Magang goose. The goose PRL cDNA shared 98.4%, 92.2%, 92%, and 91.9% sequence homology to duck, turkey, chicken and quail PRLs, respectively. The goose PRL gene consisted of 5 exons and 4 introns, just as in other species. The 5' proximal regulatory region shared high homology with those in other avian species as well, and, apart from other non-specific transcription factor binding sites, contained 2 regulatory element binding sites, a Pit-1 (-130/-122) and a VIP response element (-64/-53). The deduced 199-residue mature goose PRL shared 98.5%, 94%, 93%, and 92% homology to duck, quail, chicken, and turkey PRLs, respectively. When compared with other vertebrates, all residues were found to be highly conserved at the key positions in the 4 conserved domains (PD1-PD4), including the 6 cysteine residues at positions 4, 11, 58, 175, 191, and 199. The only exception was a substitution of Arginine by Histidine at position 176 in the mature PRL peptide. These findings render goose PRL as having a similar hydropathy profile and similar secondary and tertiary structures with other PRLs. Goose PRL also possesses an N-linked glycosylation site (Asn-X-Ser), at position 6, and an alternative glycosylation site (Asn-Gly-Cys), at position 56. Five PRL isoforms were detected in goose, as well as in chicken pituitary glands, by immunoblotting analysis. Results of this study not only provided a starting point for further study of PRL function, synthesis, and secretion in goose species, but also for breeding new goose lines efficiently using the genomic information.

Identification of a differentially-expressed gene in fatty liver of overfeeding geese

In response to overfeeding, geese develop fatty liver. To understand the fattening mechanism, mRNA differential display reverse transcription PCR was used to study the gene expression differences between French Landes grey geese and Xupu white geese in conditions of overfeeding and normal feeding. One gene was found to be up-regulated in the fatty liver in both breeds, and it has a 1797 bp cDNA with 83% identity to chicken SELENBP1. The sequence analysis revealed that its open reading frame of 1413 bp encodes a protein of 471 amino acids, which contains a putative conserved domain of 56 kDa selenium binding protein with high homology to its homologues of chicken (95%), rat (86%), mouse (84%), human (86%), monkey (86%), dog (86%), and cattle (86%). The function of this protein has been briefly reviewed based on published information. In tissue expression analysis, the expression of geese SELENBP1 mRNA was found to be higher in liver or kidney than in other tested tissues. The results showed that overfeeding could increase the mRNA expression level of geese SELENBP1.

Genetic variability of body weight in two goose strains under long-term selection

Body weight is one of the most important traits in any genetic improvement program in geese for at least 2 reasons. First, measurements of the trait are very easy. Second, body weight is correlated with a number of other meat performance traits. However, the genetic background of body weight shows considerable complexity. Three genetic models (with direct, maternal genetic and permanent maternal environmental effects) were employed in this study. Records of 3076 individuals of maternal strain W11 and 2656 individuals of paternal strain W33 over 6 consecutive generations, kept in the pedigree farm of Kołuda Wielka, were analysed. Body weight (in kilograms) was measured in weeks 8 (BW8) and 11 (BW11). The inbreeding levels in both populations were relatively low (0.14% and 0.02% for W11 and W33, respectively), therefore these effects were not included in the linear models to estimate genetic parameters. Three fixed effects (hatch period, sex and year) were included in each linear model. Two criteria (AIC, BIC) were used to check the goodness of fit of the models. The computations were performed by WOMBAT software. In general, the genetic parameter estimates varied across the traits, models and strains studied. Direct additive heritability estimates ranged from 0.0001 (for BW11 of W33) to 0.55 (for BW11 of W33). Maternal and total heritabilities were also variable. Estimates of ratios of direct-maternal effect covariance in phenotypic variance were both positive and negative, but they were negligible, whereas ratios of the permanent environmental maternal variance to phenotypic variance were close to zero. Both of the applied criteria of model adequacy indicate that the model with maternal genetic and environmental effects should be considered as optimal. Genetic trends were close to zero. It seems that they were influenced by long-term selection. Similar tendencies have been observed for phenotypic trends, as well.

The differential expression of hepatic genes between prelaying and laying geese

Suppression subtractive hybridization was used to detect differential expression of genes in the livers of laying and prelaying geese. Liver tissues from prelaying and laying geese were dissected for mRNA extraction. The cDNA, reverse transcribed from liver mRNA of prelaying geese, was subtracted from the cDNA generated from the laying geese (forward subtraction). Five hundred seventy-six clones with possible differentially expressed gene fragments were observed by forward subtraction hybridization. After differential screening using the reverse and forward subtraction cDNA, 164 clones were subjected to gene sequence determination and further analysis. Using Northern analysis, 5 known and 8 unknown genes were shown to be highly expressed in the livers of laying geese compared with prelaying geese. Vitellogenin I, apoVLDL-II, ethanolamine kinase, G-protein gamma-5 subunit, and leucyl-tRNA synthase were highly expressed in the livers of laying geese compared with that from the prelaying geese (P<0.05). The expression of these known genes suggests that their function in the liver of laying geese is primarily involved in lipid and lipoprotein metabolism. Several of these differentially expressed genes were found to be responsive to estrogen stimulation, confirming the involvement of these genes in the egg-laying function of the goose.

Molecular cloning, in vitro expression and bioactivity of goose B-cell activating factor

B-cell activating factor (BAFF), belonging to the TNF family, is critical for B cell survival and maturation. cDNA of goose BAFF (gBAFF) was amplified from goose spleen by RT-PCR. The open reading frame (ORF) of gBAFF encodes a protein of 288-amino acid. The gBAFF shows 98, 92, 44 and 55% amino acid sequence identity with duck (dBAFF), chicken (cBAFF), mouse (mBAFF) and human BAFF (hBAFF), respectively. RT-PCR results showed that gBAFF mRNA is expressed in thymus and more highly expressed in the bursa of Fabricius and spleen. Recombinant soluble gBAFF (gsBAFF) expressed in Escherichia coli has molecular weight of approximately 19kDa. In vitro, purified gsBAFF was able to promote bursa B cells survival/proliferation in goose, duck and chicken. Furthermore, recombinant dsBAFF and csBAFF have a positive effect on goose, duck and chicken bursa B cells survival/proliferation. These findings indicate that gBAFF plays an important role in the survival/proliferation of goose B cells and, owing to its high evolutionary conservation, functional cross-reactivity exists between chicken, duck and goose BAFF.

Genetic diversity of local geese of varying productivity and feather color in Kars

The local geese in the transition region between the Caucasus Mountains and Anatolia have economically significant differences in productivity and are identified by four feather colors, white, black, piebald, and yellow. This study was undertaken to determine the genetic structure, evolutionary relationships, and genetic diversity among these birds. DNA samples were obtained from 100 animals, and 50 random primers were screened. Genetic relationships were determined by random amplified polymorphic DNA polymorphisms obtained from a total of 48 loci, showing 40 bands (83.33%) that were polymorphic among all the populations investigated. A dendrogram constructed for this study revealed a close relationship between the white and the black birds. Additionally, the piebald birds showed close similarity to white and black geese, and the yellow birds displayed a clear distance from the other three populations.

Molecular cloning and functional analysis of goose interferon gamma

The cDNA for goose interferon gamma (goIFN-gamma) was cloned from PHA-stimulated goose peripheral blood mononuclear cells (PBMCs) by RT-PCR. This cDNA encodes a 19-amino acid signal peptide and a 145-amino acid mature protein, which shares a high homology with duck IFN-gamma. Recombinant mature goose interferon gamma (rgoIFN-gamma) generated from both prokaryotic and eukaryotic expression systems effectively inhibited the replication of goose paramyxovirus and recombinant vesicular stomatitis virus in vitro. These antiviral activities were abrogated by rabbit anti-rgoIFN-gamma antibodies in vitro. Furthermore, rgoIFN-gamma stimulated goose peritoneal macrophages to produce nitric oxide (NO) in vitro, demonstrating its macrophage activating factor (MAF) activity. Therefore, the availability of bioactive rgoIFN-gamma and its specific antibodies provides valuable tools for studying T cell immunity in geese.

Mitochondrial DNA cleavage patterns distinguish independent origin of Chinese domestic geese and Western domestic geese

It has generally been assumed, based on morphology, that Chinese domestic goose breeds were derived from the swan goose (Anser cygnoides) and that European and American breeds were derived from the graylag goose (Anser anser). To test the validity of this assumption, we investigated the mtDNA cleavage patterns of 16 Chinese breeds and 2 European breeds as well as hybrids produced between a Chinese breed and a European breed. After 224 mtDNAs, isolated from the Chinese and European breeds, were digested by 19 restriction endonucleases, variations of the cleavage patterns were observed for four enzymes (EcoRV, HaeII, HincII, and KpnI). All Chinese breeds and their maternal hybrids except the Yili breed showed an identical haplotype, named haplotype I or the Chinese haplotype; the European breeds and the Yili breed showed another haplotype, named haplotype II or the western haplotype. None of the haplotype found in the Chinese type was detectable in the western type and vice versa. The two haplotypes were found to differ from each other at 8.0% of the sites surveyed and with a 0.72% sequence divergence. Using 2% substitution per million years calibrated from the genera Anser and Branta, the two domestic geese haplotypes were estimated to have diverged approximately 360,000 years ago, well outside the 3000-6000 years in domestic history. Our findings provide the first molecular genetic evidence to support the dual origin assumption of domestic geese in the world. Meanwhile, the four mtDNA restriction fragment length polymorphisms can be used as maternal genetic markers to distinguish the two types of domestic geese.

Description of the Anser anser Goose Karyotype

The karyotype of the Italian goose originating from Anser anser was characterised on the basis of R and C bands. Chromosomal preparations obtained from an in vitro culture of blood lymphocytes were stained with the RBG and CBG techniques. The RBG technique enabled the analysis of the structure of nine pairs of chromosomes whereas the CBG technique - fourteen pairs ofchromosomes from the total ofeighty goose chromosomes. The morphology and the R and C banding patterns were described. The size and arrangement of the blocks of constitutive chromatin were determined. Ideograms of R and C banded patterns were drawn. The morphological structure of the analysed chromosomes was evaluated.

The Expression of Pituitary Gland Genes in Laying Geese

The purpose of this study was to detect differential expression of genes in the pituitary gland in laying geese by suppression subtractive hybridization (SSH). Pituitary glands from prelaying and laying geese were dissected for mRNA extraction. The cDNA from pituitary glands of prelaying geese was subtracted from the cDNA from the pituitary glands of laying geese (forward subtraction); the reverse subtraction was also performed. We screened 384 clones with possible differentially expressed gene fragments by differential screening. Sixty-five clones from the differential screening results were subjected to gene sequencing and further analysis. We found that at least 19 genes were highly expressed in the pituitary glands of laying geese compared with prelaying geese. Among these, 6 genes (including 4 novel genes) were confirmed by virtual Northern analysis. We found that prolactin and visinin-like protein were highly expressed in the pituitary glands of laying geese compared with prelaying geese (P < 0.05). Further investigation is needed to demonstrate specific functions of the novel genes discovered in the current study.

Critical role of tryptophanyl residues in the conformational stability of goose δ-crystallin

Delta-crystallin is the major structural protein in avian and reptilian eye lenses but its sequence is highly homologous with the urea cycle enzyme, argininosuccinate lyase (ASL). In previous studies the multi-step unfolding process of this protein in the presence of GdmCl was sensitively probed using tryptophan fluorescence. In this study the contribution of single tryptophan residues to the stability of the local environment was monitored by mutation of two highly conservative tryptophan residues in goose delta-crystallin, Trp 74 and Trp 169. These residues behaved differently in terms of fluorescence intensity and maxima emission wavelength, consistent with their structural location in buried or solvent accessible regions. No gross changes in the secondary structure after mutation were observed, as judged by far-UV CD. The side chains of tryptophan residues in the structure of wild-type goose delta-crystallin possess both hydrophobic and hydrogen bonding interactions. Replacement of the side chain with phenylalanine or alanine led to expose of a hydrophobic area and a reduction in thermal stability; W169A particularly has a T(m) value that was 10 degrees C lower than the wild type enzyme. In the presence of GdmCl, a sharp red shift in fluorescence wavelength due to subunit dissociation can be sensitively detected using a single tryptophan, with the region surrounding W74 undergoing the first transition with a [GdmCl](1/2) of 0.45 M. Further measurement of unfolding curves by CD revealed that the W169A mutant was most unstable with a [GdmCl](1/2) of 0.22 M. From sedimentation velocity analysis, the unstable conformation of the W169A mutant affected the assembly of the quaternary structure. Our studies demonstrate the critical role for the tryptophan residues in stabilizing protein conformations and subunit assembly in delta-crystallin.

Cloning, in vitro expression and bioactivity of goose interferon-alpha

The cDNA of goose interferon-alpha (goIFN-alpha) was amplified from PHA stimulated PBMCs of goose by RT-PCR. The cDNA encodes a 30-amino acid signal peptide and a 161-amino acid mature protein, respectively. Recombinant mature goIFN-alpha (rgoIFN-alpha) expressed by prokaryotic and eukaryotic system possessed antiviral activity that was neutralized by rabbit anti-rgoIFN-alpha antibody in vitro. On the other hand, rgoIFN-alpha lacks intrinsic macrophage activating factor (MAF) activity, peripheral blood leukocyte-derived macrophages (PBLMs) could not produce nitric oxide (NO) by stimulate with rgoIFN-alpha as compared to stimulate with recombinant mature goIFN-gamma (rgoIFN-gamma) that was a powerful NO stimulant in vitro.

[Sequence and structure analysis of mitochondrial tRNApro and tRNAthr genes in domestic goose breeds]

We report here the results of the sequence and structure analysis of mitochondrial tRNApro and tRNAthr genes in domestic goose breeds by sequencing the mitochondrial DNA from a total of 25 samples from 6 breeds of Chinese geese and 2 breeds of domestic Europe geese. Sequences and the cloverleaf structure of tRNApro (69 bp) and tRNAthr (68 bp) in domestic goose breeds were described and analysed They were compared amongst the three domestic goose breeds as well as between Anseriformes (Anser cygnoides) and Galliformes (Gallus gallus domesticus, Genbank accession number NC001323). Both goose tRNApro and tRNAthr genes have normal cloverleaf secondary structures. The amino acid arm and the anticodon loop of the cloverleaf structure of tRNApro and tRNAthr are very conservative among Anser albifrons, Anser anser and Anser cygnoides. The gene sequences in this study were deposited to GenBank under accession numbers AY427800-AY427805 and AY427812-AY427814.

RAPD-PCR analysis of various goose populations

The aim of this study was to genetically analyse by the RAPD-PCR method four indigenous Polish goose breeds, Kartuska (Ka), Lubelska (Lu), Kielecka (Ki) and Podkarpacka (Pd), in order to determine the band-sharing frequency as well as bands characteristic of the evaluated breeds. The birds were maintained as conservative flocks, accounting for a reserve of genetic resources. A total of 102 scorable bands were obtained, their number ranging from 0 to 8, depending on one of seven primers used and the group of birds analyzed, within a mean of 3.64. For each genetic group specific bands with given primers were obtained, suggesting their potential for use as population-specific markers, especially in ex-situ conservation methods. The results also suggest that keeping endangered geese as separate flocks is relevant for their preservation.

Molecular Cloning and Homologous Modeling of Wulong Goose MHC ClassⅠGene

Major histocompatibility complex (MHC) was correlated with immune response for extra-antigen. MHC sequences of chicken, other birds, crawl species and mammalian were derived from GenBank/DDBJ/EMBL and analyzed by alignment, and then primers were designed. By means of LA-PCR method, MHC Classgene was cloned from Wulong goose genomic DNA and total RNA, and the structure of MHC Classgenomic DNA was analyzed using bioinformation methods. The results showed that the genomic DNA, which consisted of 8 extrons and 7 introns, had 64.1% amino acids homologous to chicken and 42.9% amino acids to human. The molecular phylogenetic tree further revealed evolutionary relationship between Wulong goose and other animals such as chicken, other birds, crawl species, mammalian and human. The results of homologous modeling showed that Wulong Goose MHC Classgene was formed by amidocyanogen (N) terminal structure region and carboxyl (C) terminal structure region.

Characteristics of fresh gander semen and its susceptibility to cryopreservation in six generations derived from geese inseminated with frozen-thawed semen

The paper summarises seven years experiments designed to determine the effect of continuous insemination with frozen-thawed semen on fresh semen quality and sperm susceptibility to freezing stress in succeeding generations. During course of experiments, semen was collected from 10-12 White Koluda ganders at the age of 8-9 months, then subjected to freezing and used after thawing for insemination of 10 geese in order to obtain the subsequent generation of males. Semen was diluted 1 to 0.5 (v/v) with EK diluent, equilibrated for 15 min at +4 degrees C, mixed with 6 percent (v/v) of dimethyl-formamide (DMF), frozen to temp. -140 degrees C at a rate 60 degree C per min and then transferred into liquid nitrogen container. Semen samples were thawed prior to insemination in a 60 degree C water-bath. It is difficult to conclude whether freezing stress affected the fresh semen quality, since average volume of SQF (index comprising ejaculate volume, sperm concentration and percentage of live normal cells) varied between generations from 19.3 to 56.2. Continuous goose reproduction by insemination with frozen-thawed semen resulted in significant increase (P less than 0.01) in spermatozoa resistance to cryoinjury in every subsequent generation. In the relation to adequate fresh semen the percentage of live morphologically intact spermatozoa which withstood freezing procedure increased from 27.2 in first generation to 74.4 in sixth generation.

[Genetic differentiation of domestic goose breeds in China]

The 1 042 bp control region of mitochondrial DNA from 84 geese of 15 domestic goose breeds was sequenced and genetic differentiation was analysed. Results showed that the interpopulation nucleotide divergence was highest (3.805% -4.067%) between Yili and the other 14 breeds. The average nucleotide diversity variation within different domestic breeds was 0 - 0.116%. Excluding the Yili, the interpopulation nucleotide divergence between Huoyan and the remaining breeds, was 0.211% - 0.272%, which was significantly higher than that between any other two breeds (0 -0.094%). During the formation of domestic breeds in China,there is an association between the genetic differentiation of domestic geese and their geographic distribution. The divergence time of Huoyan breed was relatively earlier and genetic drift may have been the main factor to affect the genetic differentiation of the Huoyan breed (Nm = 0.02 -0.54). On the other hand, gene flow is the main reason for the lack of a clear differentiation among the remaining 13 Chinese domestic geese breeds (Nm = 12.0 - 65.33).

[Phylogenetic relationships among domestic goose breeds based on mitochondrial cytochrome b gene sequence variation]

The mitochondrial cytochrome b (cyt b) gene of 17 breeds of domestic goose (2 in Europe and 15 in China) was sequenced and compared with that of the representative of wild species Anser albifrons. Sequence analysis revealed that thirty-one variable sites and 4 different haplotypes were found among the 45 sequences examined, and nucleotide diversity and haplotype diversity were 0.0068 and 0.45, respectively. Mutations of insertion/deletion were not found. Across all sites,the abundance of G was low (14.2%), whereas the percentages of A, T, and C were quite similar among three Anser goose species. The frequency of guanine differs greatly among the three codon positions. Compositional bias is smaller at first and second positions (0.057 and 0.223) than at third positions (0.492), the probability of transition was higher than that of tranversion (Ts/Tv=9.5-19), there was the highest number of transition in the third codon. The phylogenetic analysis support the hypothesis of dual origin of domestic geese.

cDNA cloning, genomic structure and expression analysis of the goose (Anser cygnoides) MHC class I gene

To provide data for studies on avian disease resistance, goose MHC class I cDNA (Ancy-MHC I) was cloned from a goose cDNA library, it's genomic structure and expression analysis were investigated. The mature peptides of Ancy-MHC I cDNA encoded 333 amino acids. The genomic organization is composed of eight exons and seven introns. Based on the genetic distance, six Ancy-MHC I genes from six individuals can be classified into four lineages. A total of nineteen amino acid positions in peptide-binding domain showed high scores by Wu-kabat index analysis. The Ancy-MHC I amino acid sequence displayed seven critical HLA-A2 amino acids that bind with antigen polypeptides, and have an 85.4-98.9% amino acid homology with each genes, and a 59.8-66.0% amino acid homology with chicken MHC class I. Expression analyses using Q-RT-PCR to detect the tissue-specific expression of Ancy-MHC I mRNA in an adult goose. The result appeared that Ancy-MHC I cDNA was expressed in the liver, spleen, intestine, kidney, lung, pancreas, heart, brain, and skin. The phylogenetic tree appears to branch in an order consistent with accepted evolutionary pathways.

Colonization history of the high-arctic pink-footed goose Anser brachyrhynchus

Population structure and phylogeography of the pink-footed goose, Anser brachyrhynchus Baillon 1833, was studied using mtDNA control region sequences (221 bp) from 142 individuals. Present breeding areas of the species in Greenland, Iceland, and Svalbard were largely covered by ice during the late Pleistocene. In pairwise comparisons phiST estimates showed significant differentiation among eastern and western populations, whereas sampling localities within both areas were not differentiated. The mtDNA data indicate that the populations have separated recently (less than 10 000 years ago) and present breeding areas were colonized from one refugial population. The levels of haplotype and nucleotide diversity were approximately five times higher for the eastern population compared to the western population and suggest that the latter was colonized by a subset of eastern birds. Time to the most recent common ancestor of the species is 32 000-46 000 years, i.e. the present mtDNA variation of the pink-footed goose has accumulated during the last 0.1 My. Estimates of the long-term female effective population size (5400-7700 for the eastern population) imply that the refugial population of the pink-footed goose has been large. Tundra habitats were more extensive in cold periods of the late Pleistocene than today and may have sustained population sizes that allowed the accumulation of extant genetic polymorphism. It is not probable that the postulated small refugial areas in the high latitudes had a significant role in maintaining this diversity.

[Cloning and sequence analysis of cDNA encoding PPAR from goose]

The peroxisome proliferator activated receptor (PPAR) belongs to a large family of nuclear receptors. This study was designed to clone and sequence analysis of cDNA encoding PPAR from goose. The RT-PCR method was developed to clone the cDNA, and the lengths of cDNA encoding PPARalpha and PPARgamma were 1407bp and 1428bp respectively. The cDNAs of the two genes were cloned and sequenced for the first time. The identities of CDS of PPARalpha and PPARgamma gene were 87.43% and 92.00% by homologous comparison among goose and other five species, and that were 93.38% and 96.95% in amino acid sequences. The further analysis among seventeen species including goose showed that the identities of PPAR genes were low(66.18%) among different sub-type (alpha,gamma,beta) of PPAR genes and that was high for the same sub-type of PPAR genes: PPARalpha, PPARgamma and PPARbeta (or PPARdelta) were 84.80%, 86.23% and 87.36% respectively. The results showed that these two genes are conservative in the process of evolution and has important physiological function for the growth and development of birds and mammals. The results of the present study will benefit the further study of relationship between PPAR genes and the growth and development, especially in fat metabolism of goose.

Quantitation of mule duck in goose foie gras using TaqMan real-time Polymerase Chain Reaction

A real-time quantitative Polymerase Chain Reaction (PCR) method has been developed for the quantitation of mule duck (Anas platyrhynchos x Cairina moschata) in binary duck/goose foie gras mixtures. The method combines the use of real-time PCR with duck-specific and endogenous control "duck + goose" primers to measure duck content and total foie gras content, respectively. Both PCR systems (duck-specific and duck + goose) were designed on the mitochondrial 12S ribosomal RNA gene (rRNA). The duck-specific system amplifies a 96 bp fragment from duck DNA, whereas the duck + goose system amplifies a 120 bp fragment from duck and goose DNA. The method measures PCR product accumulation through a FAM-labeled fluorogenic probe (TaqMan). The C(t) (threshold cycle) values obtained from the duck + goose system are used to normalize the ones obtained from the duck-specific system. Analysis of experimental duck/goose foie gras binary mixtures demonstrated the suitability of the assay for the detection and quantitation of duck in the range of 1-25%. This genetic marker can be very useful to avoid mislabeling or fraudulent species substitution of goose by duck in foie gras.

Conserved Genetic Basis of a Quantitative Plumage Trait Involved in Mate Choice

A key question in evolutionary genetics is whether shared genetic mechanisms underlie the independent evolution of similar phenotypes across phylogenetically divergent lineages. Here we show that in two classic examples of melanic plumage polymorphisms in birds, lesser snow geese (Anser c. caerulescens) and arctic skuas (Stercorarius parasiticus), melanism is perfectly associated with variation in the melanocortin-1 receptor (MC1R) gene. In both species, the degree of melanism correlates with the number of copies of variant MC1R alleles. Phylogenetic reconstructions of variant MC1R alleles in geese and skuas show that melanism is a derived trait that evolved in the Pleistocene.