05 for events, p value = 0 01 for genes) Moreover, doubly transm

05 for events, p value = 0.01 for genes). Moreover, doubly transmitted events occur more often when the sib is female than male (p value = 0.09 for events, p value = 0.02 for genes). Recalling that the SSC cohort excluded families

with two affected children, these transmission biases are joint and independent evidence that there are fewer transmissions of ultrarare events to a male sib than to the autistic child in our cohort and support the hypothesis that a portion of ultrarare transmission Veliparib purchase events are causal in males. There appears to be no gender bias in the parent of origin of ultrarare events. Overall, the sources of transmissions of ultrarare events were 233 from the fathers and 223 from the mothers. For events that were transmitted but not to the unaffected male

siblings, the sources were 125 from the fathers and 125 from the mothers. The possible implications for this observation will be discussed later. We combined evidence from all CNVs, exploring transmitted events that overlap de novo events (Table S3). We also compiled lists of transmitted events with boundaries similar to those found in de novo events (Tables S5 and S10). Because ultrarare transmitted events and de selleck screening library novo events are sparse data sets, we cannot expect to draw strong conclusions for specific loci by combining these data. Rather, in these tables one can find anecdotal information that informally raises or lowers the suspicion that various loci are contributory. For Non-specific serine/threonine protein kinase example, transmission data raise the suspicion for USP7, CTNNA3, and genes encoding several related voltage-gated calcium channels (see next section) but diminish suspicion for the loci at NIPA (15q11.2) and NPHP1 (2q13). The latter loci appear to be mainly

unstable, and parental variants transmit equally to sibs and probands. Although our focus has been on rare variants that contribute to phenotypes in a dominant fashion, it has been documented that some autism can result from the combined action of recessive alleles (Morrow et al., 2008). Therefore, we scanned the genomes of probands and sibs looking for rare homozygous deletions that hit both alleles. Two were found, both occurring in probands (Figure S2). One disrupted COMMD1 (2p15) in a female. Homozygous loss of this gene is implicated in copper toxicosis in dogs ( van De Sluis et al., 2002) but has not been previously reported in humans. The deletion initially appeared as a de novo event; the father, but not the mother, carried a hemizygous deletion. However, the boundaries of the homozygous loss in the child matched those of the hemizygous loss in the father precisely, which raised our suspicion that the child had an instance of a rare but known occurrence of uniparental disomy of chromosome 2 ( Kotzot and Utermann, 2005).

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