• Journal of Korean Neurosurgical Society
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• 제29권2호
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• pp.188-195
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• 2000

Objective : Essential tremor(ET) is the most common movement disorder, however, there has been little agreement in the neurologic literature regarding diagnostic criteria for ET. Familial ET is an autosomal dominant disorder presenting as an isolated postural tremor. The main feature of ET is postural tremor of the arms with later involvement of the head, voice, or legs. In previous studies, it was reported that ET susceptibility was inherited in an autosomal dominant inheritance. As previous results, it would suggest that ET might be associated with defect of mitochondrial or nuclear DNA. Recent studies are focusing on molecular genetic detection of movement disorders, such as essential tremor and restless legs syndrome. Moreover, authors have analysed mitochondrial DNA(mtDNA) from the blood cell of positive control(PC) and ET patients via long and accurate polymerase chain reaction(LA PCR). Materials & Methods : Blood samples were collected from PC and 9 ET patients. Total DNA was extracted twice with phenol followed by chloroform : isoamylalcohol. For the analysis of mtDNA, LA PCR was performed by mitochondrial specific primers. Results : With this technique, deletions of large quantities were detected within several regions of mtDNA in ET patients except for D-loop and CO I regions. Conclusion : The authors believe that ET is a genentic disorder with deficiency of mitochondrial DNA multicomplexes and mitochondiral dysfunction could be one of major causative factors of ET. Mitochondrial dysfunction may play an important role in the pathogenesis and possibility of disease progression among familial group with ET patients.

• Archives of Pharmacal Research
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• 제29권1호
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• pp.88-95
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• 2006

Analysis of molecular nature of mitochondrial DNA (mtDNA) could be powerful marker for anthropological studies of modern populations. While population genetic studies on mtDNA have been reported for several ethnic groups, no such study has been documented for the Korean population. We surveyed mtDNA polymorphisms in the HVS I of noncoding D-loop region and its upstream region from 430 unrelated healthy Korean population by polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) and direct sequencing analysis. PCR product with 2,790 bp spanning the specific mtDNA region (mt13715-16504) was subjected to RFLP analysis using 6 restriction enzyme (Hinf I, Hae III, Alu I, Dde I, Mbo I, Rsa I). On the PAUP analysis of PCR-RFLP results, 38 mtDNA haplotypes (Hap 1-38) were detected in the Korean populations, which were classified into 11 haplogroups (Grp 1-11) of related haplotypes encompassing all 38 haplotypes. In comparison of sequencing data with Anderson's reference sequence, the transition type was more prevalent than the transversion type. Insertions or deletions were not found. In addition, three of the polymorphic sites (A16240C, A16351G, G16384A) in HVS-I region are determined newly. The polymorphic sites were distributed randomly in the region, though the frequency at each site was variable. Thus, this research might be required for the genealogical study of Orientals.

• Asian Pacific Journal of Cancer Prevention
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• 제17권8호
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• pp.3959-3962
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• 2016

The ten-eleven-translocation-2 (TET2) gene is a novel tumor suppressor gene involved in several hematological malignancies of myeloid and lymphoid origin. Besides loss-of-function mutations and deletions, hypermethylation of the CpG island at the TET2 promoter has been found in human cancers. The TET2 encoded protein regulates DNA methylation. The present study aimed to examine DNA promoter methylation of TET2 in 100 childhood acute lymphoblastic leukemia (ALL) cases and 120 healthy children in southeast Iran. In addition, mRNA expression levels were assessed in 30 new cases of ALL and 32 controls. Our ndings indicated that promoter methylation of TET2 signi cantly increases the risk of ALL (OR=2.60, 95% CI=1.31-5.12, p=0.0060) in comparison with absent methylation. Furthermore, the TET2 gene was signi cantly downregulated in childhood ALL compared to healthy children (p=0.0235). The results revealed that hypermethylation and downregulation of TET2 gene may play a role in predisposition to childhood ALL. Further studies with larger sample sizes and different ethnicities are needed to con rm our ndings.

• Molecules and Cells
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• 제24권1호
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• pp.105-112
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• 2007

Most neuroblastoma cells have chromosomal aberrations such as gains, losses, amplifications and deletions of DNA. Conventional approaches like fluorescence in situ hybridization (FISH) or metaphase comparative genomic hybridization (CGH) can detect chromosomal aberrations, but their resolution is low. In this study we used array-based comparative genomic hybridization to identify the chromosomal aberrations in human neuroblastoma SH-SY5Y cells. The DNA microarray consisting of 4000 bacterial artificial chromosome (BAC) clones was able to detect chromosomal regions with aberrations. The SH-SY5Y cells showed chromosomal gains in 1q12~ q44 (Chr1:142188905-246084832), 7 (over the whole chro-mosome), 2p25.3~p16.3 (Chr2:18179-47899074), and 17q 21.32~q25.3 (Chr17:42153031-78607159), while chromosomal losses detected were the distal deletion of 1p36.33 (Chr1:552910-563807), 14q21.1~q21.3 (Chr14:37666271-47282550), and 22q13.1~q13.2 (Chr22:36885764-4190 7123). Except for the gain in 17q21 and the loss in 1p36, the other regions of gain or loss in SH-SY5Y cells were newly identified.

• Applied Biological Chemistry
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• 제32권1호
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• pp.64-72
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• 1989

Near full length cDNA clones encoding the rice seed storage protein, prolamine, were isolated and divided into two homology classes based on cross-hybridization and DNA sequencing analysis. These cDNA clones contain a single open reading frame encoding a putative rice prolamine precursor(M.W.=17,200) possessing atypical 14 amino acid signal peptide. Clones of these two homology classes diverge mainly by insertions/deletions of short nucleotide stretches and point mutations. The deduced primary structures of both types of prolamine polypeptides are devoid of any major tandem repetitive sequences, a feature prevalent in other cereal prolamines. No significant homology teas detected between the rice prolamine and other cereal prolamines, indicating that the rice gene evolved from a different ancestor that gave rise to other cereal prolamine genes. Developing wheat and rice endosperms were examined using ultrathin sections prepared from tissues harvested at various days after flowering. By immunocytochemical localization techniques, wheat prolamines are localized within vesicles from Golgi apparatus and in homogeneous regions of protein bodies. The involvement of the goli apparatus in the packaging of wheat prolamines into protein bodies indicates a pathway which differs from the mode of other cereal prolamines and resembles the mechanism employed for the storage of rice glutelin and legume globulins.

• 한국생물정보학회:학술대회논문집
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• 한국생물정보시스템생물학회 2006년도 Principles and Practice of Microarray for Biomedical Researchers
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• pp.71-76
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• 2006

Comparative genomic hybridization (CGH) is a technique for studying chromosomal changes in cancer. As cancerous cells multiply, they can undergo dramatic chromosomal changes, including chromosome loss, duplication, and the translocation of DNA from one chromosome to another. Chromosome aberrations have previously been detected using optical imaging of whole chromosomes, a technique with limited sensitivity, resolution, quantification, and throughput. Efforts in recent years to use microarrays to overcome these limitations have been hampered by inadequate sensitivity, specificity and flexibility of the microarray systems. The oligonucleotide CGH microarray system overcomes several scientific hurdles that have impeded comparative genomic studies of cancer. This new system can reliably detect single copy deletions in chromosomes. The system includes a whole human genome microarray, reagents for sample preparation, an optimized microarray processing protocol, and software for data analysis and visualization. In this study, we determined the sensitivity, accuracy and reproducibility of the new system. Using this assay, we find that the performance of the complete system was maintained over a range of input genomic DNA from 5 ug down to 0.15 ug.

• Childhood Kidney Diseases
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• 제16권2호
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• pp.73-79
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• 2012

목적: 일부 사구체 질환 그리고 말기 신부전 환자를 대상으로 한 연구들에서 특정 부위의 돌연변이와 deletion 그리고 미토콘드리아 DNA copy 수 등이 예후적인 경과와 관련이 있다는 주장이 제기되었다. 연구자들은 소아 IgA 신병증 환자를 대상으로 혈소판을 이용한 미토콘드리아 DNA 전체 염기서열 분석을 실시하였다. 방법: 인제의대 부산백병원 소아청소년과에서 신생검을 실시하여 IgA 신병증으로 확진된 7명의 환자를 대상으로 하였다. 대상 환아들은 동반된 전신질환이 없고 가족력상 신장질환이 없는 경우로 국한 하였다. 신생검 당시 혈청 크레아티닌 치와 사구체 여과율은 모두에서 정상 범위였으며, 각각의 연령 대에 정상 범위의 혈압을 보였다. 환자의 성별은 남자 4명 여자 3명 이었다. 환자들은 단백뇨의 정도에 따라 두 군으로 분류하였다. 결과: 신생검 당시 환자들의 평균 나이는 $11.5{\pm}2.2$세 였으며 최종 추적검사 당시의 나이는 평균 $17.9{\pm}3.2$세 였다. 환자들의 평균 추적관찰 기간은 평균 $7.8{\pm}3.1$년 이었다. 환자들은 입원당시 단백뇨의 정도에 따라 2군으로 분류하였다. 1군은 입원당시 단백뇨가 동반되지 않았던 환자들이며 2군은 신증후군의 임상 양상을 보인 환자들이었다. 최종 추적 관찰 당시 양군의 혈청 크레아티닌 치, BUN은 모두 정상 범위였다. 혈청 알부민 치는 2군에서 $3.7{\pm}0.6g/dL$로 1군의 $4.7{\pm}0.2g/dL$에 비해 유의하게 낮았으며(P=0.0241), 혈청 콜레스테롤치는 2군에서 $222.7{\pm}35.7mg/dL$로 1군의 $148.3{\pm}29.1mg$ 보다 유의하게 높았다(P=0.0283). 24시간 채집뇨상의 총단백량도 2군에서 $1,466.0{\pm}742.5\;gm$으로 1군의 $122.5{\pm}48.1\;gm$에 비해 유의하게 높았다(P=0.0135). 단회 소변을 이용한 단백/크레아티닌 비는 2군에서 $1.8{\pm}1.6$으로 1군의 $0.2{\pm}0.2$에 비해 높았으나(P=0.0961), 통계적인 유의성은 없었다. 2명의 환자에서 8,272-8,281(CCCCCTCTA) 부위 염기서열 누락을 관찰되었다. 단백뇨 정도에 따라 분류한 두군 모두에서 각각 한명씩 염기 서열의 누락이 있었다. 누락된 부위는 미토콘드리아 유래 발현되는 단백질 서열 등에 관련 없는 비부호화부위(non coding region) 이었다. 8,272-8,281 부위를 제외한 미토콘드리아 DNA 염기서열은 모두 정상이었다. 결론: 소아 IgA 신병증에서도 mtDNA common deletion이 증명됨으로해서 향후 소아 IgA 신병증에서 미토콘드리아의 기능 이상이 진행성 임상적 경과에 어떠한 영향을 미칠 수 있는 지에 대한 추가 연구가 필요하다고 생각한다.

• Applied Biological Chemistry
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• 제39권2호
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• pp.104-111
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• 1996

감자의 genomic DNA library로 부터 분리한 proteinase inhibitor II (pin2) 유전자들의 제한효소 지도를 작성 하였던바 이미 분리된 상처 유발 (wound-inducible)pin2K 유전자의 것과 상이성이 있는 pin2T를 분리하여 염기서열을 결정하였다. 두 유전자의 염기서열은 전체적으로 약 86%의 동일성을 보였으며 특히 promoter 부위의 염기서열은 pin2K 유전자의 전사개시 부위의 상대적인 위치인 -714까지 네부분의 결손(20 내지 60bp)을 제외하던 약 91%수준의동일성을 보였다. 분리한 유전자들의 promoter 부위를 표지 유전자인 CAT와 GUS 유전자에 연결 시킨후 담배에서의 발현을 추적하였던바, pin2K 유전자의 promoter에 의한 표지유전자의 발현은 상처에 의해 발현 되었으나 pin2T 유전자의 promoter에 의한 표지유전자의 발현은 상처 유무와 관계없이 낮은 수준으로 나타났다. 또한 pin2T 유전자의 Promoter 내의 결손은 핵 단백질의 promoter에의 결합에 영향을 주지 않았으며 상처 유발pin2K 유전자의 promoter 염기서열과 비교하였을때 pin2T 유전자의 promoter 부위내에 5'-AGTAAA-3'라는 특별한 염기부위가 자연적으로 제거된것을 알수 있었다. 또한 5'-AGTAAh-3'의 염기부위가 다른 상처 유발 유전자들에서는 흔히 발견되고, 다른 식물 유전자들의 Promoter에서는 쉽게 발견이 되지 않았다. 따라서 상처 유발 pin2K 유전자의 Promoter내에 상처 유발과 관련있는 특별한 염기부위가 자연적으로 결실되어 pin2T 유전자의 발현이 상처 유발성을 잃은것으로 짐작된다.

• 미생물학회지
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• 제34권4호
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• pp.248-253
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• 1998

Esherichia coli(E. coli) K12 균주를 숙주세포로 삼는 박테리오파아지인 N4는 single-stranded DNA에 결합하는 단백질인 N4SSB(bacteriophage N4-coded single-stranded DNA-binding protein) 단백질을 만든다. N4SSB 단백질은 N4 DNA replication 뿐만 아니라 late transcription과 N4 DNA recombination에도 필요한 여러 가지 기능을 가진 단백질이다. N4 late transcription은 숙주세포인 E. coli의 $E{\sigma}^{70}$ RNA polymerase에 의해서 수행이 되나 N4SSB 단백질을 반드시 필요로 하기 때문에 N4SSB 단백질이 생성될 때까지는 N4 late promoter로부터 RNA 합성이 일어나지 않는다. 본 연구에서는 N4SSB의 N4 DNA replication과 late transcription, 그리고 N4 DNA recombination에 필요한 영역(domain)을 알아내기 위해서 여러 가지 돌연변이형 N4SSB 단백질을 만들어 N4 DNA replication과 late transcription, 그리고 N4 DNA recombination의 3가지 작용에 대한 in vivo 활성을 조사 분석하였다. 그 결과 N4SSB 단백질의 C-말단기에 있는 7개의 아미노산이 N4SSB 단백질의 활성에 중요하다는 것을 알 수 있었다. 특히 C-말단기의 7개의 아미노산에는 세 개의 lysine이 포함되어 있는데 이 lysine이 N4SSB 단백질의 활성에 중요한 역할을 한다는 것이 제시되었다.

• BMB Reports
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• 제54권2호
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• pp.98-105
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• 2021

The clustered regularly interspaced short palindromic repeats (CRISPR) system is a family of DNA sequences originally discovered as a type of acquired immunity in prokaryotes such as bacteria and archaea. In many CRISPR systems, the functional ribonucleoproteins (RNPs) are composed of CRISPR protein and guide RNAs. They selectively bind and cleave specific target DNAs or RNAs, based on sequences complementary to the guide RNA. The specific targeted cleavage of the nucleic acids by CRISPR has been broadly utilized in genome editing methods. In the process of genome editing of eukaryotic cells, CRISPR-mediated DNA double-strand breaks (DSB) at specific genomic loci activate the endogenous DNA repair systems and induce mutations at the target sites with high efficiencies. Two of the major endogenous DNA repair machineries are non-homologous end joining (NHEJ) and homology-directed repair (HDR). In case of DSB, the two repair pathways operate in competition, resulting in several possible outcomes including deletions, insertions, and substitutions. Due to the inherent stochasticity of DSB-based genome editing methods, it was difficult to achieve defined single-base changes without unanticipated random mutation patterns. In order to overcome the heterogeneity in DSB-mediated genome editing, novel methods have been developed to incorporate precise single-base level changes without inducing DSB. The approaches utilized catalytically compromised CRISPR in conjunction with base-modifying enzymes and DNA polymerases, to accomplish highly efficient and precise genome editing of single and multiple bases. In this review, we introduce some of the advances in single-base level CRISPR genome editing methods and their applications.