We have identified three new members of the olfactory receptor (OR) gene family within a large segment of DNA that is duplicated with high similarity near many human telomeres. This segment is present at 3q, 15q, and 19p in each of 45 unrelated humans sampled from various populations. Additional copies are present polymorphically at 11 other subtelomeric locations. The frequency with which the block is present at some locations varies among populations. While humans carry seven to 11 copies of the OR-containing block, it is located in chimpanzee and gorilla predominantly at a single site, which is not orthologous to any of the locations in the human genome. The observation that sequences flanking the OR-containing segment are duplicated on larger and different sets of chromosomes than the OR block itself demonstrates that the segment is part of a much larger, complex patchwork of subtelomeric duplications. The population analyses and structural results suggest the types of processes that have shaped these regions during evolution. From its sequence, one of the OR genes in this duplicated block appears to be potentially functional. Our findings raise the possibility that functional diversity in the OR family is generated in part through duplications and inter-chromosomal rearrangements of the DNA near human telomeres.
Whole exome sequencing (WES) uses next generation sequencing technology to provide information on nearly all functional, protein-coding regions in an individual's genome. Due to the vast amount of information and incidental findings that can be generated from this technology, patient preferences must be investigated to help clinicians consent and return results to patients. Patients (n=19) who were previously clinically diagnosed with Lynch syndrome, but received uninformative negative Lynch syndrome genetic results through traditional molecular testing methods participated in semi-structured interviews after WES testing but before return of results to explore their views of WES and preferences for return of results. Analyses of interview results found that nearly all participants believed that the benefits of receiving all possible results generated from WES outweighed the undesirable effects. The majority of participants conveyed that relative to coping with a cancer diagnosis, information generated from WES would be manageable. Importantly, participants' experience with Lynch syndrome influenced their notions of genetic determinism, tolerance for uncertain results, and family communication plans. Participants would prefer to receive WES results in person from a genetic counselor or medical geneticist so that an expert could help explain the meaning and implications of the potentially large quantity and range of complicated results. These results underscore the need to study various populations with regard to the clinical use of WES in order to effectively and empathetically communicate the possible implications of this new technology and return results.
In cancer genetic counseling (CGC), communication across language and culture challenges the model of practice based on shared decision-making. To date, little research has examined the decision-making process of low-income, limited English proficiency (LEP) patients in CGC. This study identified communication patterns in CGC sessions with this population and assessed how these patterns facilitate or inhibit the decision-making process during the sessions. We analyzed 24 audio recordings of CGC sessions conducted in Spanish via telephone interpreters at two public hospitals. Patients were referred for risk of hereditary breast and ovarian cancer; all were offered genetic testing. Audio files were coded by two bilingual English-Spanish researchers and analyzed using conventional content analysis through an iterative process. The 24 sessions included 13 patients, 6 counselors, and 18 interpreters. Qualitative data analyses identified three key domains - Challenges Posed by Hypothetical Explanations, Misinterpretation by the Medical Interpreter, and Communication Facilitators - that reflect communication patterns and their impact on the counselor's ability to facilitate shared decision-making. Overall, we found an absence of patient participation in the decision-making process. Our data suggest that when counseling LEP Latina patients via medical interpreter, prioritizing information with direct utility for the patient and organizing information into short- and long-term goals may reduce information overload and improve comprehension for patient and interpreter. Further research is needed to test the proposed counseling strategies with this population and to assess how applicable our findings are to other populations.
Wolf-Hirschhorn syndrome (WHS) is a complex congenital malformation produced by a loss of genomic material at the locus 4p16.3. In addition to its dysmorphic features, the deletion produces a range of intellectual disability (ID). Many clinical aspects of WHS are well-characterized; however, the cognitive-behavioral characteristics have been rarely examined in a systematic fashion. The purpose of our study was to examine the cognitive-behavioral features of WHS and to compare them to children with other subtelomeric deletions that also produce ID. We recruited 45 children with subtelomeric deletions and examined their cognitive-behavioral abilities using a neuropsychological assessment battery composed of standardized instruments. Nineteen children were diagnosed with WHS and 26 children with one of three other subtelomeric deletions-11q25 (Jacobsen syndrome), deletion 2q37, and inversion duplication deletion 8p21-23. We found children with WHS to be more severely impacted cognitively than children from any of the other groups. Their overall adaptive behavior was lower as well. However, children with WHS exhibit strengths in socialization skills comparable to the levels attained by the other groups we assessed. Importantly, the proportion of children with WHS with autism or autistic-like features is significantly lower than the rates of autism found in the other subtelomeric disorders we examined.
We report here the band location of 540 cosmids mapped to chromosome 19. The cosmids were mapped by fluorescence in situ hybridization (FISH) relative to chromosomal bands produced by DAPI/actinomycin staining. The cosmids are distributed throughout the chromosome, with a sampling bias for the q-arm. A detailed analysis of the distribution of three different subtelomeric and 22 pericentromeric chromosome 19 cosmids on other chromosomes is also reported. Colony hybridization identified 142 cosmids that contain sequences representing genes or DNA markers that map to chromosome 19. FISH mapping of these cosmids sublocalizes a total of 70 genes and DNA markers on chromosome 19, revises the previously published map assignments of 2 genes, and narrows the location of over 20 markers.
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