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German Shepherd Database Project


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    Pedigree of

    Duke of Liebertraum


    (M)
    November 17, 1957
    AKC W981617
    Black, Silver
    Breeder: Loretta F Smith

    Notes: COI 7.47%

    Romeo of Oakwood
    September 8, 1956
    AKC W764823
    Black, Tan


    Arko von der Fels
    November 7, 1953
    AKC W601124
    Black, Silver


    Ch (US) 
    Prince Arras of Long-Muir
    CD

    December 2, 1949
    AKC W243247
    Black, Tan


     
    Siegfried's Debutante
    July 20, 1952
    AKC W451135
    Black, Tan


    Lanker's Sharon
    January 11, 1954
    AKC W525007
    Black, Tan


    Ch (US) 
    Arjo von Liebestraum

    July 19, 1948
    AKC W122061
    Black, Cream


    Strebor's Sharon
    November 2, 1946
    AKC W35514
    Black, Tan


    Peg O Dee
    May 15, 1954
    AKC W774957
    Black, Silver


    Matt's Professor of Oakwood
    January 5, 1953
    AKC W402242 [9-54]
    Black, Silver


    Baron of Picha
    November 26, 1950
    AKC W245412
    Black, Tan


    Babett of Munson Hill
    December 2, 1951
    AKC W364312
    Black, Tan


     
    Fair Lady
    September 25, 1950
    AKC W230733
    Black, Silver


    Johann of Churchill
    July 4, 1947
    AKC W132520
    Black, Tan


     
    Gallant Lady
    September 24, 1948
    AKC W129615
    Black, Tan


     
    Legend for German Shepherd Gene Study
      White Carrier
      White
      Black Carrier
      Black

    The German Shepherd Gene Study tracks the recessive "masking" white and recessive black genes forward through the generations.

    Genes come in different varieties, called alleles. Somatic cells contain two alleles for every gene, with one allele provided by each parent. Often, it is impossible to determine which two alleles of a gene are present within an dog's chromosomes based solely on the outward appearance of that dog. However, an allele that is hidden, or not expressed by, can still be passed on to that dog's offspring and expressed in a later generation.

    German Shepherds can carry one or both of the recessive white "masking" and/or the recessive black gene.

    (A masking gene masks the real color and pattern of the dog. The only way the gene can be expressed in some of the offspring is if both parents carry it. For example, when a white dog is bred to a non-white dog that does not carry the white gene, none of the offspring will express the white coat but they will be carriers of the white gene. If those offspring are bred to a white, some of their offspring will express the white coat color. White bred to white will always produce white offspring.)

    German Shepherd artwork on this site created by AHEAD Graphics. Visit their site for more talented artwork and custom designs.



    The German Shepherd Dog Database Project makes no guarantees as to the accuracy of the data published at this site. We have made every effort to verify all entries, but the German Shepherd Dog Database Project is not a registry so all data included has been submitted by dog owners or taken from registry reports and AKC Stud Books. Please contact us to report any errors or omission.

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