A series of supernumerary small ring marker autosomes identified by FISH with chromosome probe arrays and literature review excluding chromosome 15.

TLDR: A novel origin for supernumerary small rings is proposed: that they may originate from incompletely digested superfluous (haploid) pronuclei.

Abstract: Seven supernumerary small ring marker autosomes were studied The pantelomere probe (Oncor) in conjunction with scoring for dicentric rings was used to confirm ring morphology The small rings were identified mainly by FISH with chromosome probe arrays (Cytocell) containing representations from all 24 chromosomes and the rings were derived from chromosomes 7, 8 (three cases), 11, 12, and 14 The effectiveness of the array methodology in identifying markers was tested Microsatellite DNA data showed biparental disomy (BPD) was present for the rings from chromosomes 7 and 14 thereby excluding UPD, both were de novo but the ring 14 was of paternal origin The literature on supernumerary small ring autosomes was reviewed excluding chromosome 15 The grade and distribution of mosaicism was invoked as the major determinant of the differences in phenotype and, in addition, variation was attributed to the possibility of different contributions from each chromosome arm There are 88 published supernumerary small ring cases in total, with phenotypic data attributable to the respective rings in 77 cases and all chromosomes being represented except chromosome 17 Of the prenatally ascertained cases, where there was adequate phenotypic data, 30% had an abnormal phenotype attributable to the ring, and there were 44% familial cases in this group Of the postnatally ascertained small rings, 75% had an abnormal phenotype attributable to the ring and there were 13% familial cases This higher abnormality rate is concordant with the considerable ascertainment bias of this latter group and the prenatal data are recommended for genetic counseling Although data are small there were some differences between the rings derived from different chromosomes Chromosomes 3 and 8 demonstrate the extremes Of the supernumerary small r(8) cases reviewed including the three presently described, 8/11 had an abnormal phenotype attributable to the marker but of the small r(3) cases, only 1/6 had an abnormal phenotype Two of the present r(8) were studied with the GATA4 probe at 8p231 The r(8) in case 2 (patient moderately retarded) was comprised mostly of an intact 8p whereas the larger r(8) in case 3 (normal phenotype) was missing 8p231 --> pter and had more of 8q contributing to the ring In other supernumerary rings postnatally ascertained, there is mostly insufficient data but there is an abnormal phenotype in 8/11 cases with multiple small rings, in 5/6 cases with r(20), and in 5/10 with r(1) A novel origin for supernumerary small rings is proposed: that they may originate from incompletely digested superfluous (haploid) pronuclei The small rings presumptively so formed may occasionally be transfected into the zygote nucleus The high proportion ( approximately 125%) of cases with multiple supernumerary small rings almost always of different centromeric origin is consistent with this concept