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Structural chromosomal rearrangements result from different mechanisms of formation, usually related to certain genomic architectural features that may lead to genetic instability. Most of these rearrangements arise from recombination, repair, or replication mechanisms that occur after a double-strand break or the stalling/breakage of a replication fork. Here, we review the mechanisms of formation of structural rearrangements, highlighting their main features and differences. The most important mechanisms of constitutional chromosomal alterations are discussed, including Non-Allelic Homologous Recombination (NAHR), Non-Homologous End-Joining (NHEJ), Fork Stalling and Template Switching (FoSTeS), and Microhomology-Mediated Break-Induced Replication (MMBIR). Their involvement in chromoanagenesis and in the formation of complex chromosomal rearrangements, inverted duplications associated with terminal deletions, and ring chromosomes is also outlined. We reinforce the importance of high-resolution analysis to determine the DNA sequence at, and near, their breakpoints in order to infer the mechanisms of formation of structural rearrangements and to reveal how cells respond to DNA damage and repair broken ends.

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Resumen Introducción: El cromosoma 13 en anillo es una alteración citogenética infrecuente, clínicamente caracterizada por presentar retraso del crecimiento, del desarrollo psicomotor y déficit cognitivo, además de microcefalia, dismorfia facial, alteraciones genitales e hipoplasia del pulgar. Caso clínico: Paciente de 8 meses de edad evaluado por presentar talla baja, retraso del desarrollo psicomotor, microcefalia, dismorfia facial, hipospadias peneoescrotales e hipoplasia de pulgar. Se evidenció lisencefalia, hipoacusia neuroconductiva del lado derecho y comunicación interauricular tipo ostium secundum pequeña. El estudio citogenético del paciente mostró 46, XY, r (13) en 30 células analizadas. Conclusiones: Se resaltan los hallazgos clínicos que pueden orientar el diagnóstico de esta alteración cromosómica estructural infrecuente, destacando, además, la evaluación médica interdisciplinaria requerida y el adecuado asesoramiento genético familiar.

Abstract Background: Ring chromosome 13 is an infrequent cytogenetic disorder clinically characterized by growth and psychomotor development retardation, cognitive deficit, microcephaly, facial dysmorphism, genital alterations and thumb hypoplasia. Case report: A 8-month-old patient was evaluated for presenting short stature, psychomotor development delay, microcephaly, facial dysmorphism, penoscrotal hypospadias and thumb hypoplasia. Lissencephaly, neuroconductive hearing loss on the right side and small ostium secundum interatrial communication were evident. The cytogenetic study of the patient showed 46, XY, r (13) in 30 cells analyzed. Conclusions: Clinical findings that can guide the diagnosis of this infrequent structural chromosomal alteration are highlighted, as well as the interdisciplinary medical evaluation required and adequate family genetic counseling.

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Background: Ring chromosome 13 is an infrequent cytogenetic disorder clinically characterized by growth and psychomotor development retardation, cognitive deficit, microcephaly, facial dysmorphism, genital alterations and thumb hypoplasia. Case report: A 8-month-old patient was evaluated for presenting short stature, psychomotor development delay, microcephaly, facial dysmorphism, penoscrotal hypospadias and thumb hypoplasia. Lissencephaly, neuroconductive hearing loss on the right side and small ostium secundum interatrial communication were evident. The cytogenetic study of the patient showed 46, XY, r (13) in 30 cells analyzed. Conclusions: Clinical findings that can guide the diagnosis of this infrequent structural chromosomal alteration are highlighted, as well as the interdisciplinary medical evaluation required and adequate family genetic counseling.

Introducción: El cromosoma 13 en anillo es una alteración citogenética infrecuente, clínicamente caracterizada por presentar retraso del crecimiento, del desarrollo psicomotor y déficit cognitivo, además de microcefalia, dismorfia facial, alteraciones genitales e hipoplasia del pulgar. Caso clínico: Paciente de 8 meses de edad evaluado por presentar talla baja, retraso del desarrollo psicomotor, microcefalia, dismorfia facial, hipospadias peneoescrotales e hipoplasia de pulgar. Se evidenció lisencefalia, hipoacusia neuroconductiva del lado derecho y comunicación interauricular tipo ostium secundum pequeña. El estudio citogenético del paciente mostró 46, XY, r (13) en 30 células analizadas. Conclusiones: Se resaltan los hallazgos clínicos que pueden orientar el diagnóstico de esta alteración cromosómica estructural infrecuente, destacando además, la evaluación médica interdisciplinaria requerida y el adecuado asesoramiento genético familiar.

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BACKGROUND: Since 1969, 49 cases have been presented on ring chromosome 4. All of these cases have been characterized for the loss of genetic material. The genes located in these chromosomal regions are related to the phenotype. CASE PRESENTATION: A 10-year-old Ecuadorian Mestizo girl with ring chromosome 4 was clinically, cytogenetically and molecularly analysed. Clinical examination revealed congenital anomalies, including microcephaly, prominent nose, micrognathia, low set ears, bilateral clinodactyly of the fifth finger, small sacrococcygeal dimple, short stature and mental retardation. Cytogenetic studies showed a mosaic karyotype, mos 46,XX,r(4)(p16.3q35.2)/46,XX, with a ring chromosome 4 from 75 to 79% in three studies conducted over ten years. These results were confirmed by fluorescence in situ hybridization (FISH). Loss of 1.7 Mb and gain of 342 kb in 4p16.3 and loss of 3 Mb in 4q35.2 were identified by high-resolution mapping array. CONCLUSION: Most cases with ring chromosome 4 have deletion of genetic material in terminal regions; however, our case has inv dup del rearrangement in the ring chromosome formation. Heterogeneous clinical features in all cases reviewed are related to the amount of genetic material lost or gained. The application of several techniques can increase our knowledge of ring chromosome 4 and its deviations from typical "ring syndrome."

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Here, we report a patient with ring chromosome 6 [r(6)], associated with anterior segment dysgenesis (ASD) and other anomalies. The phenotype was due to a 1880 kb microdeletion at 6p25.3 identified by whole-genome array analysis, and was mainly attributable to a FOXC1 haploinsufficiency. Currently 37 patients with r(6) have been reported. We found that facial dysmorphism, ASD, heart anomalies, brain anomalies, and hearing loss are constant features only in severe cases of r(6), mainly related to hemizygosity of FOXC1. Thus, overlaps with other FOXC1 related phenotypes, such as the 6p25 deletion syndrome, Axenfeld-Rieger syndrome type 3, and ASD type 3. Contrarily, those patients whose r(6) does not disrupt FOXC1, have mild or moderate phenotypes and do not exhibit ASD.

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El Síndrome del Anillo del Cromosoma 18 (18 [(r)18]) es un trastorno cromosómico que se incluye dentro de las anomalías estructurales desequilibradas donde dicho cromosoma se encuentra en forma de anillo el cual resulta de la pérdida simultánea de ambos segmentos terminales de los brazos corto y largo con la subsecuente fusión de sus extremos, constituyendo una estructura circular que microscópicamente se asemeja a un anillo, de allí su nomenclatura r (del inglés ring, que significa anillo). Tiene una incidencia de 1/40.000 nacidos vivos y hasta la fecha se han reportado aproximadamente entre 80 a 100 casos a nivel mundial sin embargo sólo existen alrededor de nueve reportes de r(18) en mosaico, aislado o asociado con otras alteraciones cromosómicas. A continuación, se presenta el caso de una paciente pediátrica con Síndrome del Anillo del cromosoma 18 estudiado y diagnosticado en la Unidad de Genética Médica de la Universidad Centroccidental Lisandro Alvarado en Barquisimeto, Venezuela, con la correspondiente revisión de la literatura relacionada con este síndrome(AU)

Chromosome 18 Ring Syndrome (18 [(r) 18]) is a chromosomal disorder that is included among the unbalanced structural anomalies in which chromosome 18 has a ring form which results from the simultaneous loss of both terminal segments of the short and long arms with the subsequent fusion of their ends forming a circular structure that microscopically resembles a ring, hence its nomenclature r (of the English ring, which means ring).18r Syndrome has an incidence of 1/40,000 live births; to date approximately 80-100 cases worldwide have been reported. There are only about nine reports of r(18) in mosaic, isolated or associated with other chromosomal alterations. We present a case of a pediatric patient with Chromosome 18 Ring Syndrome, evaluated and diagnosed in the Unidad de Genética Médica of the Universidad Centroccidental Lisandro Alvarado in Barquisimeto, Venezuela with the corresponding review of the literature(AU)

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Jacobsen syndrome (JBS) is a contiguous gene deletion syndrome involving terminal chromosome 11q. The haploinsufficiency of multiple genes contributes to the overall clinical phenotype, which can include the variant Paris-Trousseau syndrome, a transient thrombocytopenia related to FLI1 hemizygous deletion. We investigated a boy with features of JBS using classic cytogenetic methods, FISH and high-resolution array CGH. The proband was found to have a mosaic ring chromosome 11 resulting in a hemizygous 11q terminal deletion of 8.6 Mb, leading to a copy number loss of 52 genes. The patient had a hemizygous deletion in the FLI1 gene region without apparent thrombocytopenia, and he developed diabetes mellitus type I, which has not previously been described in the spectrum of disorders associated with JBS. The relationship of some of the genes within the context of the phenotype caused by a partial deletion of 11q has provided insights concerning the developmental anomalies presented in this patient with atypical features of JBS.

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The clinical phenotype of patients with ring chromosomes usually reflects the loss of genomic material during ring formation. However, phenotypic alterations can also be found in the presence of complete ring chromosomes, in which the breakage and rejoining in terminal regions of both chromosome arms result in no gene loss. Here, we present a patient with a ring chromosome 14 that lost nothing but the telomeres. Since he and other patients with a similar chromosome abnormality present certain abnormal characteristics, we investigated the gene expression of eight chromosome 14 genes to find out whether the configuration of the ring had changed it, possibly producing some of these clinical features. The expression of these eight genes was studied by quantitative real-time polymerase chain reaction (qPCR) in the patient and in seven controls matched for gender and age. Two of them were found to be downregulated in the patient compared to the controls, indicating that his phenotype might be related to alterations in the expression of genes located in the abnormal chromosome, even when the copy number is normal. Thus, the phenotypic alterations found in the presence of complete ring chromosomes may be related to changes in the chromatin architecture, bringing about a change of expression by position effect. These results may explain some of the characteristics presented by our patient.

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We report here on six patients with a ring chromosome 22 and the range of cytogenetic and phenotypic features presented by them. Genomic analysis was carried out using classical and molecular cytogenetics, MLPA (Multiplex Ligation-dependent Probe Amplification) and genome-wide SNP-array analysis. The ring was found in all patients, but Patient 6 displayed constitutional mosaicism with a normal cell line. Five patients had deletions in the ring chromosome 22, and in four of them the breakpoints--unique for each patient--could be identified by genome-wide SNP-array analysis. One patient presented with a 22q11.2 deletion concomitant with the deletion caused by the ring formation. Common phenotypic features included autism, speech delay and seizures, as previously reported for individuals with r(22) and/or 22q13.3 deletions. Investigation of the genes within the deletions revealed multiple genes related to development of the central nervous system, psychomotor delay, severe language impairment, hypotonia, and autistic symptoms. There was no clear correlation between the severity of clinical features and the size of the deleted segment. This study underscores the variability in ring structure and clinical presentation of the r(22) and adds information to the limited literature on this rare disorder.

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We present the literature review of ring chromosome 7 and clinical, cytogenetic and fine molecular mapping of the first postnatal report of a male child with a non-supernumerary ring chromosome 7, r(7). The patient had dysmorphic features, developmental delay, dermatologic lesions with variable pigmentation, hypogenitalism, lumbar dextroscoliosis, cerebellar and ophthalmological abnormalities, and melanocytic congenital nevi. Cytogenetic analysis of peripheral blood and the nevus sample showed the presence of three different cell lines r(7), monosomy 7, and duplicated r(7) (idic r(7)), while findings on fibroblasts from both light and dark skin showed only mosaicism with r(7) and monosomy 7 cell lines in various proportions. FISH assay of the ring chromosome showed subtelomeric loss in both chromosome arms in all tissues studied. Analysis by genome-wide single-nucleotide polymorphism array showed a 0.8 Mb deletion in 7p22.3 (involving eight genes) and a 7.5 Mb deletion in 7q36 (involving 29 genes including some involved in genital and central nervous system development). The combination of results from our karyotypic and array analyses enabled us to establish an accurate genotype-phenotype relationship.

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OBJECTIVE: To study genotype-phenotype correlation of ring chromosome 18 [r(18)] in 9 patients with 46,XN karyotype. STUDY DESIGN: In 9 patients with a de novo 46,XN,r(18) karyotype (7 females, 2 males), we performed high-resolution single-nucleotide polymorphism array analysis (Illumina Human Omni1-QuadV1 array in 6 patients, Affymetrix 6.0 array in 3 patients), investigation of parental origin, and genotype-phenotype correlation. RESULTS: No breakpoint was recurrent. Single metaphases with loss of the ring, double rings, or secondarily rearranged rings were found in some cases, but true mosaicism was present in none of these cases. In 3 patients, additional duplications in 18p (of 1.4 Mb, 2 Mb, and 5.8 Mb) were detected. In 1 patient, an additional deletion of 472 kb in Xp22.33, including the SHOX gene, was found. Parental origin of r(18) was maternal in 2 patients and paternal in 4 patients, and formation was most likely meiotic. Karyotype was normal in all investigated parents (n = 15). At birth, mean maternal age was 30 years (n = 9) and mean paternal age was 34.4 years (n = 9). CONCLUSION: Genotype-phenotype correlation revealed extensive clinical variability but no characteristic r(18) phenotype. Severity of clinical signs were generally correlated with the size of the deletion. Patients with large deletions in 18p and small deletions in 18q exhibited mainly symptoms related to 18p-, whereas those with large deletions in 18q and small deletions in 18p had symptoms of 18q-.

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INTRODUÇÃO: A associação de síndrome do cromossomo 18 em anel com deficiência de hormônio de crescimento (DGH) é muito rara, com apenas dois relatos na literatura. RELATO DO CASO: Paciente feminina, negra, 1 ano de idade, encaminhada para investigação de crises de hipoglicemia desde os 6 meses, acompanhadas de crise convulsiva. Apresentava atraso do desenvolvimento neuropsicomotor e erro alimentar. Ao exame físico, criança desnutrida (escores z peso/idade de -6,95 e estatura/idade de -5,05), fenda palatina, prega epicântica e hipotonia generalizada. O diagnóstico de DGH foi feito em vigência de hipoglicemia e iniciado o tratamento com somatropina 0,1 U/kg aos 16 meses de idade. A RM do crânio evidenciou neuro-hipófise ectópica. O hipotireoidismo foi diagnosticado com 1 ano e 7 meses, sendo adicionada levotiroxina ao tratamento. O cariótipo 46XX r(18) (p11,2 ­ q.23), estabeleceu o diagnóstico de síndrome do cromossomo 18 em anel. Está em uso de GH há 3 anos, os episódios de hipoglicemia com crise convulsiva desapareceram mas não houve melhora da velocidade de crescimento. DISCUSSÃO: Não foram encontrados na literatura relatos da associação de DGH, hipotireoidismo e cromossomo 18 em anel. Crianças com cromossomo 18 em anel merecem investigação para DGH. A reposição com GH não melhorou o crescimento da nossa paciente.

INTRODUCTION: The association of 18-ring chromosome syndrome and growth hormone deficiency (GHD) is extremely rare, with only two reports in the literature. CASE REPORT: A one year-old, non-white female was referred due to hypoglycemic seizures. She had developmental delay and poor nutrition. Her physical examination was significant for a weight Z score of -6.95, height Z score of -5,05, cleft palate, epicanthic folds and generalized hypotony. Karyotype was 46XX r(18) (p11,2 ­ q.23) - 18 ring chromosome syndrome, the MRI showed an ectopic neurohypophysis. The diagnosis GHD was made due to low GH levels during spontaneous severe hypoglycemia at the age of 16 months. She was started on hGH 0.1 U/kg/day. Three months later, TSH deficiency was diagnosed and L-thyroxin therapy was started. During hGH replacement the hypoglycemic events stopped but after 3 years of hGH therapy, she did not improve growth velocity. DISCUSSION: We were unable to find any report of GHD and hypothyroidism associated with the 18-ring chromosome syndrome. Children with 18-ring chromosome should undergo investigation of GHD. In our child with 18-ring syndrome the hGH therapy did not improve growth velocity.

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