Phenotypes

This phene has been renamed from "Ehlers-Danlos syndrome, classic type, 2" to "classical Ehlers-Danlos syndrome (cEDS), COL5A2-related" in OMIA on the basis of the review on human Ehlers-Danlos syndromes by Malfait et al. (2020) [2/6/2022].

Rothammer et al. (2017): "comparisons of the sequence of [the candidate] haplotype [see Genetic mapping section] with sequence data from four Braunvieh sires and the Aurochs genome identified two possible candidate causal mutations at positions 39,829,806 bp (G/A; R45Q) [omia.variant:847] and 39,864,148 bp (C/T; T444I) [omia.variant:848] that were absent in 1682 animals from various bovine breeds included in the 1000 bull genomes project. Both...

Floriot et al. (2021) "A total of 106 affected animals were reported to the French National Observatory for Bovine Abnormalities (ONAB, https://www.onab.fr/, Grohs et al. 2016). The first case reported to the ONAB was a cow born in 2008. At birth, the affected animals, which are otherwise healthy, present a dilution of the pigmented, normally red, areas of the coat .... To search for the causative genetic factors responsible for this genetic co...

In a reversal of the normal sequence of discovery, Li et al. (2016) discovered this phenotype AFTER identifying the causal mutation, by noticing that all Belgian Blue cattle with a particular mutation (MLPH: c.87_96del; p.Glu32Aspfs*1), which inactivates MLPH, have an expected dilution phenotype which the authors called "cool gray".

Philipp et al. (2011) reported a "dominantly inherited syndrome associated with hypopigmentation, heterochromia irides, colobomatous eyes and bilateral hearing loss . . . in Fleckvieh cattle"

For information relating to Bos indicus cattle see: OMIA 001199-9915 : Coat colour, extension in Bos indicus

Complex vertebral malformation is an inherited syndrome in Holstein-Friesian cattle. CVM has been reported in aborted, premature born, stillborn and neonatal calves. Affected calves have a reduced weight, a misshapen backbone and tendon contractions in the legs. Several other malformations including heart malformations are associated with this syndrome. A DNA test is available in Denmark and the Netherlands. [Imke Tammen: 26 Jan 2002] From a s...

Reynolds et al. (2021): “The top-associated SNP in these analyses presented a highly correlated … c.1561-1G>A splice acceptor mutation in GALNT2 as potentially responsible for these effects … .” The authors “had provisionally mapped the variant as a candidate stature mutation (unpublished), and subsequently as a variant for which homozygotes were depleted … (Charlier et al., 2016).”

In the words of Charlier et al. (2008), "All calves with CMD have episodes of generalized muscle contractures, but careful clinical examination suggested two distinct phenotypes (CMD1 and CMD2)." 

This disorder is of particular interest in cattle, because it is one of the few cases in which an embryonic lethal has been identified. (By their very nature, embryonic lethals are difficult to identify; their only manifestation is a return to service.) To date, the only known cause of this disorder in cattle is a nonsense mutation in codon 405 of the UMPS gene, resulting in a complete deficiency of functional UMPS (Schwenger et al., 1993). Si...

Much useful information on this disorder, including a video, is available from http://www.angus.org/pub/DD/DDInfo.aspx

In a textbook example of how to make use of clinical information to identify a comparative candidate gene (based on the homologous human disorder) namely KRT5 (keratin 5), Ford et al. (2005) showed that this disorder in the offspring of a Friesian-Jersey bull is due to a 4051G>A base substitution in the bovine KRT5 gene, leading to an E478K amino-acid substitution. The bull turned out to be mosaic for a de novo mutation. Jacinto et al. (202...

In four Belgian Blue calves, Sartelet et al. (2015) identified the causal mutation as a nonsense mutation [c.7825C>T] "in the LAMA3 gene that creates a premature stop codon (p.Arg2609*) in exon 60, truncating 22% of the corresponding protein".

Agerholm et al. (2017): "whole genome sequencing of a case-parent trio revealed two de novo variants perfectly associated with the disease: an intronic SNP in the DMBT1 gene and a single non-synonymous variant in the FGFR2 gene. This FGFR2 missense variant (c.927G>T) affects a gene encoding a member of the fibroblast growth factor receptor family, where amino acid sequence is highly conserved between members and across species. It is predic...

In a conference abstract, Haton et al. (2000) reported that, by cloning and sequencing a very likely comparative candidate gene (based on the homologous human disorder), they had identified a 76-bp insertion in exon 12 of the Factor XI gene as being causative of Factor XI deficiency in Holstein cattle. This discovery was fully described by Marron et al. (2004) who explained that "This insertion introduces a stop codon that results in a mature ...