obi2 239 Posted April 10, 2014 Report Share Posted April 10, 2014 Here's mine, saluki bull greyhound, she's about 14 weeks old 1 Quote Link to post
shaaark 10,822 Posted April 10, 2014 Report Share Posted April 10, 2014 thanks sesku how she bred mate? Like the look of her. . 3 quater greyhound quarter collie mate Is she from hancocks mate, just curious, belting pup wherever you got her from Quote Link to post
weasellurcher 113 Posted April 10, 2014 Report Share Posted April 10, 2014 Jjust because a good litter is pr4oduced first time round doesn't mean the same will happen again. Understanding the genetics of repeat breading might help to decide weather its a good idea or not. could you explain them in a bit more detail for us Would like to hear them as well blue,be good to hear brazer you can tell genetics via punnet squares, every single trait (lenght of coat, colour, height, greying gene) occurs due to a specific gene in a chromosome. If the mother has a long coat for example and the father, it doesnt garauntee that the pup will. if we use a capital L for the gene that makes a long coat and a small l for the gene that makes a short coat then if the long coat or L is dominant and the small l is ressesive the mother could have the genotype of Ll as could the father Ll so they would both have the phenotype of being long coated but have a gene for short coated. when they breed Ll - Ll then the possible out comes would be homozygous dominant (LL) which would have the phenotype of long coat, 50% chance of hetrozygous dominant (Ll) which would still be a long coat because of the L being dominant over the small l and finally homozygous ressesive (ll) which would be short coated so that would mean the there is a 1 in 4 chance of the pup being smooth coated. obviously it is likely that both or one of the parents would be homozygous (LL) and so then all the pups would be long coated. 1 Quote Link to post
shaaark 10,822 Posted April 10, 2014 Report Share Posted April 10, 2014 Jjust because a good litter is pr4oduced first time round doesn't mean the same will happen again. Understanding the genetics of repeat breading might help to decide weather its a good idea or not. could you explain them in a bit more detail for us Would like to hear them as well blue,be good to hear brazer you can tell genetics via punnet squares, every single trait (lenght of coat, colour, height, greying gene) occurs due to a specific gene in a chromosome. If the mother has a long coat for example and the father, it doesnt garauntee that the pup will. if we use a capital L for the gene that makes a long coat and a small l for the gene that makes a short coat then if the long coat or L is dominant and the small l is ressesive the mother could have the genotype of Ll as could the father Ll so they would both have the phenotype of being long coated but have a gene for short coated. when they breed Ll - Ll then the possible out comes would be homozygous dominant (LL) which would have the phenotype of long coat, 50% chance of hetrozygous dominant (Ll) which would still be a long coat because of the L being dominant over the small l and finally homozygous ressesive (ll) which would be short coated so that would mean the there is a 1 in 4 chance of the pup being smooth coated. obviously it is likely that both or one of the parents would be homozygous (LL) and so then all the pups would be long coated. kin el, top stuff fella. Still means absolutely FAAACK ALL to me!! 1 Quote Link to post
teddog 59 Posted April 18, 2014 Report Share Posted April 18, 2014 Jjust because a good litter is pr4oduced first time round doesn't mean the same will happen again. Understanding the genetics of repeat breading might help to decide weather its a good idea or not. could you explain them in a bit more detail for us Would like to hear them as well blue,be good to hear brazer you can tell genetics via punnet squares, every single trait (lenght of coat, colour, height, greying gene) occurs due to a specific gene in a chromosome. If the mother has a long coat for example and the father, it doesnt garauntee that the pup will. if we use a capital L for the gene that makes a long coat and a small l for the gene that makes a short coat then if the long coat or L is dominant and the small l is ressesive the mother could have the genotype of Ll as could the father Ll so they would both have the phenotype of being long coated but have a gene for short coated. when they breed Ll - Ll then the possible out comes would be homozygous dominant (LL) which would have the phenotype of long coat, 50% chance of hetrozygous dominant (Ll) which would still be a long coat because of the L being dominant over the small l and finally homozygous ressesive (ll) which would be short coated so that would mean the there is a 1 in 4 chance of the pup being smooth coated. obviously it is likely that both or one of the parents would be homozygous (LL) and so then all the pups would be long coated. as if its as simple as that Quote Link to post
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