1.Analysis of gene inversion in Hemophilia A by Nanopore sequencing.
Peng DAI ; Yin FENG ; Chaofeng ZHU ; Xiangdong KONG
Chinese Journal of Medical Genetics 2021;38(6):521-525
OBJECTIVE:
To detect gene inversion in two pedigrees affected with Hemophilia A by using Nanopore sequencing technology.
METHODS:
Peripheral blood samples were taken from members of the two pedigrees. Following extraction of genome DNA, genetic variants of the carriers were detected by Nanopore sequencing and subjected to bioinformatic analysis.
RESULTS:
Nanopore sequencing has identified the niece of the proband of the pedigree 1 as carrier of Hemophilia A Inv22, and the mother of the proband of the pedigree 2 as carrier of Hemophilia A Inv1, which was consistent with clinical findings. Breakpoint sites in both pedigrees were accurately mapped. Statistical analysis of the sequencing results revealed a large number of variations in the carriers' genomes including deletions, duplications, insertions, inversions and translocations.
CONCLUSION
Nanopore sequencing can be used to analyze gene inversions associated with Hemophilia A, which also provided a powerful tool for the diagnosis of diseases caused by gene inversions.
Chromosome Inversion/genetics*
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Hemophilia A/genetics*
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Humans
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Introns
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Nanopore Sequencing
;
Pedigree
2.Clinical and Laboratorial Characteristics of Primary Acute Myeloid leukemia with Philadelphia Chromosome and Inversion 16.
Feng JIANG ; Yuan-Yuan WANG ; Zi-Xing CHENG ; Su-Ning CHEN ; Dan-Dan LIU ; Jian-Ying LIANG ; Jin-Lan PAN ; Ming-Qing ZHU ; Wen-Jing DING ; Jian-Nong CEN
Journal of Experimental Hematology 2015;23(2):335-339
OBJECTIVETo summarize the clinical characteristics as well as diagnosis and treatment in 1 case of acute myeloid leukemia(AML) with coexpression of Ph and inv(16).
METHODSA series of clinical tests, the cellular morphological, immunological, cytogenetic and molecular biological examinations of leukemia cells were performed.
RESULTSThe clinical characteristics of this patient were very common. The cellular morphology is similar to the AML with inv(16). The leukemia cells were stained positively for CD13, CD33, CD34, CD117 and HLA-DR. Karyotypic analysis showed a complex chromosome abnormality including inv(16) and Ph, and the FISH analysis showed that the percentage of rearrangement of CBFβ allele was over that of the BCR-ABL fusion signals. The obvious adverse events did not occur in this patient within 3 years.
CONCLUSIONPh as secondary aberration of inv(16) rarely occures in primary AML cases, and so far there have not been the clear criteria of diagnosis and treatment. The cytogenetic and molecular biology could provide the basis for diagnosis. Moreover, autologous hematopoietic stem cell transplantation combined with imatinib probably is one of the effective treatment methods.
Chromosome Aberrations ; Chromosome Disorders ; Chromosome Inversion ; Fusion Proteins, bcr-abl ; HLA-DR Antigens ; Humans ; Leukemia, Myeloid, Acute ; Philadelphia Chromosome
3.Detection and genetic counseling of F8 gene inversions for patients with severe hemophilia A.
Nan BAI ; Qinghua WU ; Ning LIU ; Duo CHEN ; Zhenhua ZHAO ; Xiangdong KONG
Chinese Journal of Medical Genetics 2016;33(4):508-510
OBJECTIVEInversions of intron 1 (Inv1) or intron 22 (Inv22) of the coagulation factor VIII gene (F8) may be found in 40%-50% of patients with severe hemophilia A. Such inversions cannot be detected by conventional sequencing. Due to homologous recombination, family-based linkage analysis may yield false positive or false negative results. In this study, Inverse-shifting PCR (IS-PCR) was used to detect potential inversions in two families affected with hemophilia A.
METHODSPeripheral venous blood, fetal amniotic fluid and fetal chorionic cells were harvested for genome DNA extraction. IS-PCR was used to detect Inv1 or Inv22 detection or its subtypes.
RESULTSIS-PCR has accurately detected Inv22 and Inv1 in both families and verified the subtypes of Inv22.
CONCLUSIONCarriers of Inv22 or Inv1 may be precisely detected with IS-PCR. The results have provided valuable information for genetic counseling and prenatal diagnosis for the affected families.
Child ; Chromosome Inversion ; Factor VIII ; genetics ; Genetic Counseling ; Hemophilia A ; diagnosis ; genetics ; Humans ; Introns ; Male ; Prenatal Diagnosis
4.Intron 1 and 22 inversions in factor VIII gene in patients with haemophilia A.
Tan LI ; Jing DAI ; Jing-Sheng WU ; Qiu-Lan DING ; Kai-Yang DING ; Chang-Cheng ZHENG ; Ping SUN ; Xue-Feng WANG
Chinese Journal of Hematology 2009;30(3):150-153
OBJECTIVETo analyze intron 1 and 22 inversions in factor VIII (FVIII) gene in hemophilia A (HA) patients and and their families and to investigate the correlation between intron inversion and FVIII antibody.
METHODSAll patients were detected FVIII: C and FVIII antibody. In addition, 81 unrelated HA patients were directly detected by multiplex PCR and long-distance PCR for intron 1 and 22 inversions in FVIII gene. Pedigree investigation for some patients were conducted.
RESULTSIn 81 unrelated HA patients, 3 severe cases were found intron 1 inversion which accounted for 4.6% of total 65 severe cases. Of the 3 cases, one was FVIII antibody positive. Two female family members of a intron 1 inversion patient were identified as one carrier and one non-carrier. Twenty five of 65 (38.5%) severe cases were found intron 22 inversion. Of the 25 cases 1 was FVIII antibody positive. Nine female members in 5 HA families which had patients with intron 22 inversion were identified as 7 carries and 2 non-carriers.
CONCLUSIONBesides intron 22 inversion, intron 1 inversion was another important molecular defect in resulting in severe HA. Intron inversion analysis can also be used for deviation rectification of experiment grouping in HA patients. Intron 1 and 22 inversions may be one of the higher risk factors for resulting in FVIII antibodies.
Chromosome Inversion ; Chromosomes, Human, X ; Factor VIII ; genetics ; Female ; Hemophilia A ; genetics ; Humans ; Introns ; Male
5.The Prognostic Factors for AML Children with CBFβ/MYH11 Positive.
Min YAN ; Fu-Xing SONG ; Jun LU
Journal of Experimental Hematology 2021;29(2):369-373
OBJECTIVE:
To analyze the prognostic factors of AML children with CBFβ/MYH11 positive.
METHODS:
Twenty-eight children with CBFβ/MYH11 positive treated in our hospital from May 2012 to June 2018 were selected, the clinical data and curative were analyzed and evaluated.
RESULTS:
Five-year OS and 5-year EFS rate of CBFβ/MYH11 positive AML children was 76.8% and 64.0% efficacy, respectively. Univariate analysis results showed that the OS rate of CBFβ/MYH11 positive AML children with WBC<60.0×10
CONCLUSION
WBC level and XRCC-Thr241Met genotype at initial diagnosis are the major affecting factors for prognosis of AML children with CBFβ/MYH11 positive.
Child
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Chromosome Inversion
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Genotype
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Humans
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Leukemia, Myeloid, Acute/genetics*
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Myosin Heavy Chains
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Oncogene Proteins, Fusion
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Prognosis
6.Recombinant Chromosome 4 with Partial 4p Deletion and 4q Duplication Inherited from Paternal Pericentric Inversion.
Se Jin MUN ; Eun Hae CHO ; Myoung Jae CHEY ; Gyu Hong SHIM ; Bo Moon SHIN ; Rae Kyung LEE ; Ji Kyung KO ; Soo Jin YOO
The Korean Journal of Laboratory Medicine 2010;30(1):89-92
Pericentric inversion of chromosome 4 can give rise to 2 alternate recombinant (rec) chromosomesby duplication or deletion of 4p. The deletion of distal 4p manifests as Wolf-Hirschhorn syndrome (WHS). Here, we report the molecular cytogenetic findings and clinical manifestations observed in an infant with 46,XX,rec(4)dup(4q)inv(4)(p16q31.3)pat. The infant was delivered by Cesarean section at the 33rd week of gestation because pleural effusion and polyhydramnios were detected on ultrasonography. At birth, the infant showed no malformation or dysfunction, except for a preauricular skin tag. Array comparative genomic hybridization analysis of neonatal peripheral blood samples showed a gain of 38 Mb on 4q31.3-qter and a loss of 3 Mb on 4p16.3, and these results were consistent with WHS. At the last follow-up at 8 months of age (corrected age, 6 months), the infant had not achieved complete head control.
*Chromosome Deletion
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*Chromosome Duplication
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*Chromosome Inversion
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*Chromosomes, Human, Pair 4
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Comparative Genomic Hybridization
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Female
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Gestational Age
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Humans
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Infant
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Pleural Effusion/ultrasonography
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Polyhydramnios/ultrasonography
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Pregnancy
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Wolf-Hirschhorn Syndrome/*genetics
7.Optical genome mapping analysis of a Chinese pedigree with a rare chromosome 17 paracentric inversion insertion.
Hao WANG ; Yang YANG ; Nannan YANG ; Yan WANG ; Huawei LI ; Wensheng HU
Chinese Journal of Medical Genetics 2023;40(6):727-732
OBJECTIVE:
To carry out optical genome mapping (OGM) for a Chinese pedigree with a rare paracentric reverse insertion of chromosome 17.
METHODS:
A high-risk pregnant woman identified at the Prenatal Diagnosis Center of Hangzhou Women's Hospital in October 2021 and her family members were selected as the study subjects. Chromosome G banding analysis, fluorescence in situ hybridization (FISH), single nucleotide polymorphism array (SNP array) and OGM were applied to verify the balanced structural abnormality of chromosome 17 in the pedigree.
RESULTS:
Chromosomal karyotyping analysis and SNP array assay have identified a duplication of 17q23q25 in the fetus. Karyotyping analysis of the pregnant woman showed that the structure of chromosome 17 was abnormal, whilst SNP array has detected no abnormality. OGM revealed that the woman has carried a paracentric reverse insertion, which was confirmed by FISH. The karyotype of her husband was normal.
CONCLUSION
The duplication of 17q23q25 in the fetus has derived from a paracentric reverse insertion of chromosome 17 in its mother. OGM has the advantage for delineating balanced chromosome structural abnormalities.
Pregnancy
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Humans
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Female
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Pedigree
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In Situ Hybridization, Fluorescence
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Chromosomes, Human, Pair 17/genetics*
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East Asian People
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Chromosome Aberrations
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Prenatal Diagnosis
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Chromosome Mapping
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Chromosome Inversion
8.De Novo Pericentric Inversion of Chromosome 9 in Congenital Anomaly.
Seon Yong JEONG ; Bo Young KIM ; Jae Eun YU
Yonsei Medical Journal 2010;51(5):775-780
PURPOSE: The pericentric inversion of chromosome 9 is one of the most common structural balanced chromosomal variations and has been found in both normal populations and patients with various abnormal phenotypes and diseases. The aim of this study was to re-evaluate the clinical impact of inv(9)(p11q13). MATERIALS AND METHODS: We studied the karyotypes of 431 neonates with congenital anomalies at the Pediatric Clinic in Ajou University Hospital between 2004 and 2008 and retrospectively reviewed their clinical data. RESULTS: Chromosomal aberrations were detected in 60 patients (13.9%). The most common type of structural abnormality was inv(9)(p11q13), found in eight patients. Clinical investigation revealed that all eight cases with inv(9)(p11q13) had various congenital anomalies including: polydactyly, club foot, microtia, deafness, asymmetric face, giant Meckel's diverticulum, duodenal diaphragm, small bowel malrotation, pulmonary stenosis, cardiomyopathy, arrhythmia, and intrauterine growth restriction. The cytogenetic analysis of parents showed that all of the cases were de novo heterozygous inv(9)(p11q13). CONCLUSION: Since our results indicate that the incidence of inv(9)(p11q13) in patients with congenital anomalies was not significantly different from the normal population, inv(9)(p11q13) does not appear to be pathogenic with regard to the congenital anomalies. Some other, to date unknown, causes of the anomalies remain to be identified.
Adult
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Chromosome Inversion/*genetics
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Chromosomes, Human, Pair 9/*genetics
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Congenital Abnormalities/*genetics
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Female
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Humans
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Infant, Newborn
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Male
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Retrospective Studies
9.A Case of Partial Trisomy 20p Resulting from Meiotic Recombination of a Maternal Pericentric Inversion.
Jeong Eun KANG ; Mi Young PARK ; Chong Kun CHEON ; Hyoung Doo LEE ; Sang Hyun HWANG ; Jongyoun YI
Annals of Laboratory Medicine 2012;32(1):91-94
Here we report the cytogenetic and clinical manifestations observed in a patient with a rec(20)dup(20p)inv(20)(p11.2q13.3)mat. The patient was a full-term newborn girl with asymmetric intrauterine growth restriction and multiple congenital malformations, including a ventricular septal defect, pulmonary atresia, ambiguous genitalia, clinodactyly, and sacral dimpling. To our knowledge, this is the 4th report in the world and the 1st one in Korea of a patient with rec(20)dup(20p).
Abnormalities, Multiple/genetics
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Adult
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*Chromosome Inversion
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*Chromosomes, Human, Pair 20
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Female
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Humans
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Infant, Newborn
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Phenotype
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*Recombination, Genetic
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*Trisomy
10.Carrier detection and prenatal diagnosis of hemophilia Alpha.
Yuanfang LIU ; Xuefeng WANG ; Haiyan CHU ; Zhiguang LI ; Hongli WANG ; Zhenyi WANG
Chinese Medical Journal 2002;115(7):991-994
OBJECTIVETo establish an effective laboratory examination system for carrier detection and prenatal diagnosis of haemophilia Alpha(HA) with a variety of molecular biological methods which are simple,rapid and easy to use.
METHODSDetection of inversion involving intron 22 in the FVIII gene was completed by long distance polymerase chain reaction (PCR) and linkage analysis was performed by using several genetic polymorphisms including an intragenic Bcl I RFLP, 2 STRs and an extragenic St14 VNTR.
RESULTSIntron 22 inversion was observed in 10 out of the 21 (47.6%) pedigrees examined. Prenatal diagnosis was completed in 3 pedigrees. A further combination of the four intragenic and extragenic polymorphic loci gave an informative rate of 94.7%.
CONCLUSIONSFemale relatives in HA families with inversion can be detected with direct diagnostic procedure. The application of long distance PCR makes the detection much more simple and rapid. For families without inversions,it is easier and more cost-effective to undertake linkage analysis of genetic polymorphism based on PCR.
Chromosome Inversion ; Female ; Genetic Carrier Screening ; Hemophilia A ; diagnosis ; genetics ; Humans ; Introns ; Minisatellite Repeats ; Polymorphism, Restriction Fragment Length ; Pregnancy ; Prenatal Diagnosis