http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
Identification of novel mutations in L1CAM gene by a DHPLC-based assay
Mirella Vinci,Michele Falco,Lucia Castiglia,Lucia Grillo,Angela Spalletta,Maurizio Sturnio,Ornella Galesi,Michele Salemi,Angelo Gloria,Silvestra Amata,Maria Piccione,Vincenzo Antona,Girolamo Aurelio V 한국유전학회 2016 Genes & Genomics Vol.38 No.12
X-linked hydrocephalus, MASA syndrome, X-linked complicated Spastic Paraplegia Type I, and X-linked partial agenesis of the corpus callosum are rare diseases mainly affecting male population and broadly referred as L1 syndrome, caused by mutations in the L1CAM gene. In the present study 36 boys and a male fetus whose clinical features were consistent with L1 syndrome were analyzed by dHPLC assay and direct sequencing of L1CAM gene. Sequence analysis of the 14 different aberrant dHPLC elution profiles demonstrated that six of them were associated with already reported polymorphisms, four with previously described causative variants while the remaining four represented novel L1CAM mutations. The dHPLC method proposed identified eight (21 %) causative L1CAM mutations in our patients while direct sequencing failed to detect any variation in patients negative to dHPLC analysis. We conclude that the dHPLC assay represents a fast and efficient method for the screening of L1CAM mutations and that L1 syndrome should be considered in the differential diagnosis of intellectual disability in children, especially when other signs such as hydrocephalus or adducted thumbs are present.
Francesco Calì,Alda Ragalmuto,Valeria Chiavetta,Giuseppe Calabrese,Marco Fichera,Mirella Vinci,Giuseppa Ruggeri,Pietro Schinocca,Maurizio Sturnio,Salvatore Romano,IRCCS Oasi Maria SS,Valentino Romano 생화학분자생물학회 2010 Experimental and molecular medicine Vol.42 No.12
Angelman syndrome (AS) is a severe neurobehavioural disorder caused by failure of expression of the maternal copy of the imprinted domain located on 15q11-q13. There are different mechanisms leading to AS: maternal microdeletion, uniparental disomy, defects in a putative imprinting centre, mutations of the E3 ubiquitin protein ligase (UBE3A) gene. However,some of suspected cases of AS are still scored negative to all the latter mutations. Recently, it has been shown that a proportion of negative cases bear large deletions overlapping one or more exons of the UBE3A gene. These deletions are difficult to detect by conventional gene-scanning methods due to the masking effect by the non-deleted allele. In this study, we have used for the first time multiplex ligation-dependent probe amplification (MLPA) and comparative multiplex dosage analysis (CMDA) to search for large deletions affecting the UBE3A gene. Using this approach, we identified a novel causative deletion involving exon 8 in an affected sibling. Based on our results, we propose the use of MLPA as a fast, accurate and inexpensive test to detect large deletions in the UBE3A gene in a small but significant percentage of AS patients.
Cali, Francesco,Ragalmuto, Alda,Chiavetta, Valeria,Calabrese, Giuseppe,Fichera, Marco,Vinci, Mirella,Ruggeri, Giuseppa,Schinocca, Pietro,Sturnio, Maurizio,Romano, Salvatore,Romano, Valentino,Elia, Mau Korean Society for Biochemistry and Molecular Bion 2010 Experimental and molecular medicine Vol.42 No.12
Angelman syndrome (AS) is a severe neurobehavioural disorder caused by failure of expression of the maternal copy of the imprinted domain located on 15q11-q13. There are different mechanisms leading to AS: maternal microdeletion, uniparental disomy, defects in a putative imprinting centre, mutations of the E3 ubiquitin protein ligase (UBE3A) gene. However, some of suspected cases of AS are still scored negative to all the latter mutations. Recently, it has been shown that a proportion of negative cases bear large deletions overlapping one or more exons of the UBE3A gene. These deletions are difficult to detect by conventional gene-scanning methods due to the masking effect by the non-deleted allele. In this study, we have used for the first time multiplex ligation-dependent probe amplification (MLPA) and comparative multiplex dosage analysis (CMDA) to search for large deletions affecting the UBE3A gene. Using this approach, we identified a novel causative deletion involving exon 8 in an affected sibling. Based on our results, we propose the use of MLPA as a fast, accurate and inexpensive test to detect large deletions in the UBE3A gene in a small but significant percentage of AS patients.