Indian Bantam Game
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Background Information Variants Annotation&Density Genetic Differentiation
Genetic Affinity ADMIXTURE Analysis Runs of Homozygosity
Linkage Disequilibrium Decay Demographic History Selection

Background Information

Breed Card
Breed Indian Bantam Game
Species taxonomy Gallus gallus domesticus
Classification Commercial
Region England
Purpose Broiler
Description

Indian Game (called the Cornish in the U.S.) is thought to have first originated from Asiatic Asils. These were thought to have been imported by the Phoenicians to Cornwall, South West England around 850 BC. It was developed from the Old English Game, the Malay, and the Asil chicken breeds. Actually, they were developed initially to become super game birds, but they became super meat birds instead.

Characteristics

The Indian Game has a pea comb, red earlobes, and bright-yellow legs. It appears in a wide range of attractive color-varieties. Indian Game hens are poor layers of tinted brown eggs (60 - 90 eggs per year), but they are reliable broodies. A bantam version is also available for the Indian Game chicken breed. On avarage, the weights for bantam rooster and hen are 1.25 kg and 1 kg, respectively.


Samples Information

Variants Annotation&Density

Annotation Population SNP Total SNP Percentage SNP Population INDEL Total INDEL Percentage INDEL
downstream 73472 650455 11.2955% 6429 104154 6.1726%
exonic;splicing 15 188 7.9787% 0 0 0%
exonic_unknown 22 582 3.7801% 0 82 0%
frameshift_deletion 0 0 0% 422 15977 2.6413%
frameshift_insertion 0 0 0% 382 13308 2.8705%
intergenic 1661186 15129055 10.9801% 133819 2238383 5.9784%
intronic 2101538 17735594 11.8493% 177911 2641780 6.7345%
ncRNA_exonic 44693 400185 11.1681% 3289 54342 6.0524%
ncRNA_exonic;splicing 31 231 13.4199% 3 43 6.9767%
ncRNA_intronic 421736 3728327 11.3117% 36076 575920 6.2641%
ncRNA_splicing 280 2341 11.9607% 31 478 6.4854%
ncRNA_UTR5 0 0 0% 0 18 0%
nonframeshift_deletion 0 0 0% 252 8777 2.8711%
nonframeshift_insertion 0 0 0% 120 4784 2.5084%
nonsynonymous 18906 336233 5.6229% 0 0 0%
splice_acceptor 54 750 7.2% 36 964 3.7344%
splice_donor 54 1076 5.0186% 9 763 1.1796%
splice_donor_acceptor 0 0 0% 3 45 6.6667%
splice_UTR5 31 400 7.75% 5 106 4.717%
splie_Others 0 0 0% 24 654 3.6697%
startloss 65 671 9.687% 1 51 1.9608%
stopgain 226 4175 5.4132% 15 1252 1.1981%
stoploss 34 353 9.6317% 3 63 4.7619%
synonymous 45490 548813 8.2888% 0 0 0%
upstream 74003 679592 10.8893% 5763 98760 5.8354%
upstream;downstream 5881 57451 10.2365% 482 9367 5.1457%
UTR3 36291 361040 10.0518% 3694 61415 6.0148%
UTR5 10154 112990 8.9866% 693 16935 4.0921%
UTR5;UTR3 273 2524 10.8162% 25 381 6.5617%
Total 4494435 39753026 11.3059% 369487 5848802 6.3173%
SNP Density
SNP_Annotation
INDEL Density
INDEL_Annotation

Genetic Differentiation

Summary

Genetic affinities of target population in the context of worldwide populations are measured by pairwise FST between target population and references. Smaller FST value indicates closer relationship. Regions represented by different colors are indicated above.

Genetic Affinity

PCA for G.gallus without G.g.bankiva , G.g.jabouillei, and some G.g.gallus

Summary

Genetic affiliation and population structure are shown by PCA plots. After removing G. g. bankiva, G. g. jabouillei, and some G. g. gallus individuals as outliers to other Red Jungle Fowl, the dataset contains 1,915 samples from domestic chicken and Red Jungle Fowl. User can add any populations with interests to show with the target population under this PCA context by using the item of “Add”.

ADMIXTURE Analysis

Summary

The inference of populations and individual ancestries is revealed by ADMIXTURE clustering. Length of each colored bar represents the proportion of proposed ancestry in the sample. User can add any populations with interests to compare with the target population by using the item of “Add”. The number of proposed ancestries is determined by “which K”.

Runs of Homozygosity

Summary

Runs of homozygosity (ROH) indicates long tracts of homozygous genotypes inherited from identical haplotypes of a common ancestor. Larger populations have fewer, shorter ROH, whereas isolated or bottlenecked populations have more, somewhat longer ROH. Admixture brings the fewest ROH, whereas inbreeding causes long ROH. The level of ROH is measured by number and length. The length of ROH can be defined in “ROH range”. User can add any populations with interests to compare with the target population by using the item of “Add”.

Linkage Disequilibrium Decay

Summary

Linkage disequilibrium (LD) decay is characterized by squared correlations (r²) of all SNPs frequencies against the physical distances between SNPs. User can add any populations with interests to compare with the target population by using the item of “Add”.

Demographic History

Summary

The changes of effective population size through time is inferred by SMC++. User can add any populations with interests to compare with the target population by using the item of “Add”.

Selection

Summary

Selective signals of the target population are detected by different methods. X axis indicates physical position of specific chromosomal region with interests which can be defined by “Region”. The gene annotation is shown below. Y axis of left (YL) indicates the values of Pi-ratio of -log2(πRJF/πTarget) or composite likelihood ratio (CLR) of SweeD. The levels of statistical significance are noted with different colors. Y axis of right (YR) shows the values of Fst (Target vs. Red Jungle Fowl), Pi, or Tajima’s D with blue line with sliding window approach. The genomic window size and step size for Tajima’s D are 5 kb and 5 kb, respectively. The genomic window size and step size for Fst and Pi are 10 kb and 5 kb, respectively. The methods are defined by “Method-YL” and “Method-YR”.

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