1.Loss of heterozygosity on chromosome loci 2, 3, 5, 11, 17, and 18 in aberrant crypt foci of human colon.
Ping YUAN ; Menghong SUN ; Jinsheng ZHANG ; Taiming ZHANG ; Xiongzeng ZHU ; Daren SHI
Chinese Journal of Pathology 2002;31(6):485-490
OBJECTIVETo study the genetic basis of aberrant crypt foci (ACF), which serve as a very early morphological alteration during the development of carcinogenesis by analyzing the loss of heterozygosity (LOH).
METHODSDNA from 35 colorectal carcinomas (CRC) and 34 matched ACF were isolated by microdissection. LOH of microsatellite loci at 18q12, 18q21, 5q12, 5q21, 3p21, 2p16, 17q21, 17q11 and 11p13 was detected by means of ABI-SEQUENCER and GeneScan software was applied for analysis.
RESULTSThe rate of LOH in ACF (41.18%) was less than that in carcinoma (68.57%) (P < 0.05). The profile of LOH rates at loci 18q12, 5q12, 3p21, 17q21, 17q11, 11p13 and 2p16 in ACF was similar to that in carcinoma. The LOH frequencies on 18q12, 18q21, 5q12, 5q21, and 3p21 were higher than that on 17q11 and 11p13. However the rate at 18q21 and 5q21 in ACF was much lower than that in the carcinoma (P < 0.05). The co-existing carcinomas displayed more polypoid growth pattern and located more at the sigmoid colon and rectum. LOH in carcinomas did not correlate with the location, size, type of the carcinoma and Duke's stage.
CONCLUSIONSACF are putative preneoplastic lesions that might represent the earliest morphological lesion with the alteration at molecular genetic level. Our study provides further genetic evidence in the pathogenesis of colorectal carcinomas.
Chromosomes ; Chromosomes, Human, Pair 11 ; Chromosomes, Human, Pair 17 ; Chromosomes, Human, Pair 18 ; Chromosomes, Human, Pair 2 ; Chromosomes, Human, Pair 3 ; Chromosomes, Human, Pair 5 ; Colorectal Neoplasms ; genetics ; pathology ; Humans ; Loss of Heterozygosity ; Precancerous Conditions
2.Sprengel's deformity associated with a de novo balanced translocation involving chromosome 3 and 17.
On JUNG ; Jung Hyun LEE ; Chung Sik CHUN
Korean Journal of Pediatrics 2007;50(3):311-314
This is the first case of a de novo balanced translocation 46, XY, t(3;17)(p12.2;q25) associated with multiple musculoskeletal abnormalities, including Sprengel's deformity (congenital undescended scapula to be reported). This translocation has not been described previously with this congenital anomaly in Korea.
Chromosomes, Human, Pair 3*
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Congenital Abnormalities*
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Korea
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Musculoskeletal Abnormalities
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Scapula
3.A Family of Charcot-Marie-Tooth 1A Confirmed by Molecular Genetic Analysis.
Byung Ok CHOI ; Il Nam SUNWOO ; Jin Sung LEE ; Jae Chun BAE
Journal of the Korean Neurological Association 1996;14(4):1023-1029
Recently, thanks to the development of the molecular genetics which had made us understand the nature of some genetic disorders, the concept of the classification has changed. Charcoal-Marie-Tooth disease (CMT) is the most conspicuous disease. The disease is inherited as an autosomal dominant trait. CMT is classified into two major forms: demyelinating CMT type 1 and axonal CMT type 2. CMT type 1 loci are known to map to chromosome 17 (CMT IA), chromosome 1 (CMT IB), X chromosome (CMT IX), and unknown autosome (CMT IC). And CMT type 2 loci are divided into chromosome 1 (CMT 2A) and chromosome 3 (CMT 2B). The most prevalent form is CMT IA caused by a duplication in a region of chromosome 17p11.2-12. Peripheral myelin protein-22 (PMP-22) gene In that region is known to being responsible for the disease. In Korea, although several families of CMT were reported, there is no report on the subtype of CMT type 1 confirmed by genetic analysis. We report a family of CMT IA confirmed by molecular genetic analysis using D17s122 markers.
Axons
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Chromosomes, Human, Pair 1
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Chromosomes, Human, Pair 17
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Chromosomes, Human, Pair 3
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Classification
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Humans
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Korea
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Molecular Biology*
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Myelin Sheath
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X Chromosome
4.A Family of Charcot-Marie-Tooth 1A Confirmed by Molecular Genetic Analysis.
Byung Ok CHOI ; Il Nam SUNWOO ; Jin Sung LEE ; Jae Chun BAE
Journal of the Korean Neurological Association 1996;14(4):1023-1029
Recently, thanks to the development of the molecular genetics which had made us understand the nature of some genetic disorders, the concept of the classification has changed. Charcoal-Marie-Tooth disease (CMT) is the most conspicuous disease. The disease is inherited as an autosomal dominant trait. CMT is classified into two major forms: demyelinating CMT type 1 and axonal CMT type 2. CMT type 1 loci are known to map to chromosome 17 (CMT IA), chromosome 1 (CMT IB), X chromosome (CMT IX), and unknown autosome (CMT IC). And CMT type 2 loci are divided into chromosome 1 (CMT 2A) and chromosome 3 (CMT 2B). The most prevalent form is CMT IA caused by a duplication in a region of chromosome 17p11.2-12. Peripheral myelin protein-22 (PMP-22) gene In that region is known to being responsible for the disease. In Korea, although several families of CMT were reported, there is no report on the subtype of CMT type 1 confirmed by genetic analysis. We report a family of CMT IA confirmed by molecular genetic analysis using D17s122 markers.
Axons
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Chromosomes, Human, Pair 1
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Chromosomes, Human, Pair 17
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Chromosomes, Human, Pair 3
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Classification
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Humans
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Korea
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Molecular Biology*
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Myelin Sheath
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X Chromosome
5.Molecular genetics of functional articulation disorder in children.
Chinese Journal of Contemporary Pediatrics 2012;14(4):316-320
Genetic factors are an important cause of functional articulation disorder in children. This article reviews some genes and chromosome regions associated with a genetic susceptibility to functional articulation disorders. The forkhead box P2 (FOXP2) gene on chromosome 7 is introduced in details including its structure, expression and function. The relationship between the FOXP2 gene and developmental apraxia of speech is discussed. As a transcription factor, FOXP2 gene regulates the expression of many genes. CNTNAP2 as an important target gene of FOXP2 is a key gene influencing language development. Functional articulation disorder may be developed to dyslexia, therefore some candidate regions and genes related to dyslexia, such as 3p12-13, 15q11-21, 6p22 and 1p34-36, are also introduced. ROBO1 gene in 3p12.3, ZNF280D gene, TCF12 gene, EKN1 gene in 15q21, and KIAA0319 gene in 6p22 have been candidate genes for the study of functional articulation disorder.
Articulation Disorders
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genetics
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Chromosomes, Human, Pair 15
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Chromosomes, Human, Pair 3
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Chromosomes, Human, Pair 6
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Forkhead Transcription Factors
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genetics
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Genetic Predisposition to Disease
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Humans
6.Genetic analysis of a complex chromosome rearrangement involving two chromosomes and four breakpoints in an azoospermic man.
Yu-qin LUO ; Min SHEN ; Yu-li QIAN ; Yu-lan CHEN ; Chen-ming XU ; Fan JIN
Chinese Journal of Medical Genetics 2009;26(2):200-202
OBJECTIVETo perform genetic analysis of a complex chromosome rearrangement (CCR) 46,XY, t(3;11)(q27; q13), ins(11;3)(q13;p26p13) in an azoospermic man.
METHODSPeripheral blood lymphocytes we re obtained for karyotyping, and metaphases were studied by multicolor fluorescence in situ hybridization procedure, Y chromosomal microdeletions in the azoospermia factor (AZF) region were analyzed with multiplex polymerase chain reaction.
RESULTSThe case was a complex chromosomal translocation between chromosomes 3 and 11 with four breakpoints, and accompanied with a band of chromosome 3 inserting into chromosome 11. No Y-chromosome microdeletions were identified at 6 STS sequences of the AZF loci.
CONCLUSIONCCR can have a significant impact on male fertility. Molecular cytogenetic techniques may contribute to improving and personalizing reproductive counseling.
Adult ; Azoospermia ; genetics ; Chromosome Breakage ; Chromosome Deletion ; Chromosomes, Human, Pair 1 ; Chromosomes, Human, Pair 14 ; Chromosomes, Human, Pair 3 ; Chromosomes, Human, X ; Chromosomes, Human, Y ; DNA ; analysis ; Humans ; Karyotyping ; Male ; Translocation, Genetic
7.Molecular genetics in chronic myeloid leukemia with variant Ph translocation.
Wei WU ; Jian-yong LI ; Yu ZHU ; Hai-rong QIU ; Jin-lan PAN ; Wei XU ; Li-juan CHEN ; Yun-feng SHEN ; Yong-quan XUE
Chinese Journal of Medical Genetics 2007;24(4):470-473
OBJECTIVETo explore the value of fluorescence in situ hybridization (FISH) and multiplex fluorescence in situ hybridization (M-FISH) techniques in the detection of genetic changes in chronic myeloid leukemia (CML) with variant Philadelphia translocation (vPh).
METHODSCytogenetic preparations from 10 CML patients with vPh confirmed by R banding were assayed with dual color dual fusion FISH technique. If only one fusion signal was detected in interphase cells, metaphase cells were observed to determine if there were derivative chromosome 9[der (9)] deletions. Meanwhile, the same cytogenetic preparations were assayed with M-FISH technique.
RESULTSOf the 10 CML patients with vPh, 5 were detected with der (9) deletions by FISH technique. M-FISH technique revealed that besides the chromosome 22, chromosomes 1, 3, 5, 6, 8, 10, 11 and 17 were also involved in the vPh. M-FISH technique also detected the abnormalities which were not found with conventional cytogenetics (CC), including two never reported abnormalities.
CONCLUSIONThe combination of CC, FISH and M-FISH technique could refine the genetic diagnosis of CML with vPh.
Adult ; Aged ; Chromosomes, Human, Pair 1 ; genetics ; Chromosomes, Human, Pair 10 ; genetics ; Chromosomes, Human, Pair 11 ; genetics ; Chromosomes, Human, Pair 17 ; genetics ; Chromosomes, Human, Pair 22 ; genetics ; Chromosomes, Human, Pair 3 ; genetics ; Chromosomes, Human, Pair 5 ; genetics ; Chromosomes, Human, Pair 6 ; genetics ; Chromosomes, Human, Pair 8 ; genetics ; Female ; Humans ; In Situ Hybridization, Fluorescence ; methods ; Karyotyping ; Leukemia, Myelogenous, Chronic, BCR-ABL Positive ; diagnosis ; genetics ; Male ; Middle Aged ; Reproducibility of Results ; Sensitivity and Specificity ; Translocation, Genetic ; genetics ; Young Adult
8.Annotation of complete genomic sequence of 3p24-p25 478 kb of human DNA.
Ke-yue DING ; Yi-lin ZHANG ; Li-hong CHEN ; Yan SHEN
Acta Academiae Medicinae Sinicae 2002;24(3):259-263
OBJECTIVETo annotate the human genome 3p24-p25 478 kb complete sequence.
METHODSThe protein-coding genes in the genomic sequence were identified by using ab initio gene finding, homology-based similarity database searching and all or partial mRNA aligning with genomic sequence, and the content feature of the genomic sequence were analyzed by using EMBOSS package.
RESULTSTwo known genes SLC6A1 and SLC6A11 were identified; as well as the GC content of this genomic sequence was 47% and 3 putative CpG islands were predicted in the genomic sequence, located in 130,685-131,516 bp, 307,090-307,870 bp and 415,585-416,308 bp, respectively.
CONCLUSIONSThe methods, as mentioned above, might be used for annotating the biological information in the genomic sequence, such as gene structure, GC content, CpG island.
Base Sequence ; Chromosome Mapping ; Chromosomes, Artificial, Bacterial ; Chromosomes, Human, Pair 3 ; Genome, Human ; Human Genome Project ; Humans ; Molecular Sequence Data
9.A Case of Addition of Chromosome 3 associated with Multiple Anomalies.
Min Ae SUH ; Hyun Ju LEE ; Hye Jin PARK ; Kye Hyang LEE ; Gyeong Hoon LEE ; Eun Jin CHOI ; Jin Kyung KIM ; Hai Lee CHUNG ; Eok Su SEO ; Woo Taek KIM
Journal of the Korean Society of Neonatology 2007;14(2):237-242
Chromosomal anomalies are associated with various congenital malformations and impaired development. The addition or duplication of chromosome 3 is a very rare chromosomal anomaly, in comparison to the deletion of chromosome 3. To date, only one case of the duplication of chromosome 3p has been reported, but an addition or duplication of chromosome 3p was not reported in Korea. We experienced a case of the addition of chromosome 3 in a male newborn infant who had suffered from multiple anomalies and congenital heart disease, atrioventricular septal defects and coarctation of the aorta. The karyotype of this patient was 46, XY, add(3)(p25). We report the case with the review of the associated literatures.
Aortic Coarctation
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Chromosomes, Human, Pair 3*
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Heart Defects, Congenital
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Humans
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Infant, Newborn
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Karyotype
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Korea
;
Male
10.Clinical analysis of myeloid neoplasms with t (3;21) (q26;q22).
Ye LI ; Qing LIU ; Zheng WANG ; Ya Zhen QIN ; Hui DANG ; Yan SHI ; Qi HE ; Qian JIANG ; Hao JIANG ; Yue Yun LAI
Chinese Journal of Hematology 2019;40(3):195-199
Objective: To analyze the characteristics of myeloid neoplasms with t (3;21) (q26;q22) . Methods: Clinical data of patients with t (3; 21) (q26; q22) , diagnosed as hematologic malignancies in Peking University people's hospital from January 2011 to March 2018, were collected retrospectively. 19 patients in our hospital and forty-eight patients bearing t (3;21) (q26;q22) with detailed survival data reported in literature were summarized. Kaplan- Meier method was used for survival analysis. Results: Among 19 patients, including 15 males and 4 females with a median age of 36 years (22-68 years) , 4 cases was diagnosed as de novo acute myeloid leukemia (AML) , 4 as myelodysplastic syndromes (MDS) , 3 as MDS-AML and 8 as chronic myelogenous leukemia (CML) in myeloid blast transformation. All of the 19 patients were detected to have t (3;21) (q26;q22) by G-banding technique and 13 carried additional cytogenetic aberrations. 9 of the 19 patients were detected for positive AML1-MDS1 fusion genes. In the 9 patients with detailed follow-up data, 6 patients received chemotherapy and only 2 achieved complete remission (CR) while 4 with no response. During the follow-up period, 8 patients died and the median overall survival (OS) was 6 months (4.5 to 22 months) . Survival analysis of the present 9 patients together with the literature data showed that the prognosis was poor and the median OS was 7 months. In particular, AML/t-AML had the worst prognosis. Hematopoietic stem cell transplantation (HSCT) could significantly improve survival, the median OS in HSCT group and non-HSCT group were 20.9 and 4.7 months respectively (P<0.001) . Conclusions: t (3; 21) (q26; q22) is a rare recurrent chromosomal abnormality which is detected mainly in myeloid neoplasm and confer to poor clinical prognosis. HSCT should be recommended to improve the outcomes.
Adult
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Aged
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Chromosomes, Human, Pair 21
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Chromosomes, Human, Pair 3
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Female
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Humans
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Leukemia, Myeloid, Acute
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Male
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Middle Aged
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Myeloproliferative Disorders
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Retrospective Studies
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Translocation, Genetic
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Young Adult