Pedigree of

Ajax vom Trapperheim


(M)
Jul 7, 1922
AKC 391373 (Import)
Wolf Grey, Tan
Breeder: F Wagner, Germany

Notes: COI 32.36%

Ajax vom Elsenwall
PH

Dec 21, 1919
SZ 79281
Black, Tan Markings


 
Ch (US) 
Detlef vom Siegtal

Aug 9, 1917
AKC 318725 / SZ 65833
Black, Grey, Yellow Markings


V 
Alex vom Westfalenheim
SchH3

Mar 9, 1914
SZ 59298
Black, Tan


 
Dora von Riedekenburg
Jan 9, 1914
SZ 53910
Black, Grey


 
Herta vom Günztal
PH

Mar 20, 1912
SZ 30590
Sable


V 
Ali von der Sudenburg
PH

Jan 22, 1910
SZ 11028
Dark Grey, Black Mask


Hermina Edelweiss
May 11, 1910
SZ 12095
Black, Grey


Dina vom Schillerhain
Aug 8, 1920
AKC 365655 (Import)
Cream, Dark Markings


Ch (US) 
Joselle's Dolf von Dusternbrook
PH

Apr 16, 1918
AKC 289407 / SZ 67486 (Düsternbrook)
Black, Tan


 
Luchs Uckermark
PH

Jul 20, 1912
AKC 333026 / SZ 35361
Black, Tan Markings


 
Dorte von Riedekenburg
Jan 9, 1914
AKC 341676 / SZ 53911 (Dörte)
Black, Tan Legs & Markings


Eva von Oeringen
Oct 1, 1917
SZ 66037
Light Grey, Dingy, Black Mask


V 
Nores von der Kriminalpolizei
SchH3

Mar 10, 1915
AKC 318118, SZ 60933
Grey, Tan


Charlotte von Oeringen (SZ 56682)
Mar 12, 1914
SZ 56682
Black, Brown Markings


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

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.)

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