1.Effect of phenylalanine on the Nogo-66 receptor expression in the cortical neurons of rats.
Cheng-Jiao HUANG ; Xue-Fan GU ; Yong-Jun ZHANG ; Jun YE ; Duan LI ; Li-Su HUANG
Chinese Journal of Contemporary Pediatrics 2008;10(2):211-215
OBJECTIVEThis study examined the effect of high concentration of phenylalanine (Phe) on Nogo-66 receptor (NgR) expression in the cortical neurons of rats in vitro in order to investigate whether NgR is involved in the etiology of Phe-induced brain damage.
METHODSNeurons from the cerebral cortex of embryonic rats were cultured for 3 days and then were treated with 0.9 mM Phe. After 12, 24 and 48 hrs of Phe treatment, mRNA and protein expression of NgR was detected by real-time PCR and Western blot respectively. Growth cones and growth axons of neurons were detected by immunofluorescence and immunohistochemistry respectively after 12 and 24 hrs of Phe treatment.
RESULTSThe length of growth axons of neurons was significantly shorter after 12 and 24 hrs of Phe treatment compared with the control group without Phe treatment (P<0.05). Growth cones collapse occurred in 12.5+/-9.7% and 24.1+/-4.5% of neurons respectively after 12 and 24 hrs of Phe treatment but only in 3.5+/-1.5% in the control group (P<0.01). The protein level of NgR after 12, 24 and 48 hrs of Phe treatment was up-regulated, with 9.0, 9.4 and 12.6 times as the control. mRNA level of NgR in the Phe treatment group did not differ from control.
CONCLUSIONSHigh concentration of Phe can induce an increased NgR protein expression in cortical neurons, and the increased NgR expression may contribute to the growth cones collapse and the inhibitory activities of axon regeneration after injury.
Animals ; Blotting, Western ; Cerebral Cortex ; chemistry ; drug effects ; GPI-Linked Proteins ; Immunohistochemistry ; Myelin Proteins ; analysis ; genetics ; Nogo Receptor 1 ; Phenylalanine ; pharmacology ; Polymerase Chain Reaction ; RNA, Messenger ; analysis ; Rats ; Rats, Sprague-Dawley ; Receptors, Cell Surface ; analysis ; genetics
2.Analysis of polymorphic regions of Plasmodium vivax Duffy binding protein of Korean isolates.
Weon Gyu KHO ; Joon Yong CHUNG ; Eun Jeong SIM ; Dong Wook KIM ; Woo Chul CHUNG
The Korean Journal of Parasitology 2001;39(2):143-150
The present study was designed to investigate polymorphism in Duffy binding protein (DBP) gene of Plasmodium vivax isolates of Korea. Thirty samples were obtained from P. vivax patients in Yonchon-gun, Kyonggi-do in 1998. The PCR products of the samples were subjected to sequencing and hybridization analyses of the regions II and IV of P. vivax DBP gene. Two genotypes, SK-1 and SK-2, were identified on the basis of amino acid substitution and deletion. The genotype of 10 isolates was SK-1 and that of 20 isolates was SK-2. Most of the predicted amino acids in the region II of DBP gene were conserved between the Korean isolates and Belem strain except for 4-5 amino acid substitutions. In the region IV of DBP, a 6-bp insert that was shown in the Sal-1 allele type was found in SK-1, and a 27-bp insert that was shown in the Papua New Guinea allele type was found in SK-2. In conclusion, the present findings suggest that two genotypes of P. vivax coexist in the endemic area of Korea.
Amino Acid Sequence
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Animals
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*Antigens, Protozoan
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Base Sequence
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Carrier Proteins/*analysis/chemistry/*genetics
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DNA, Protozoan/genetics
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Genotype
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Human
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Korea
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Malaria, Vivax/parasitology
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Molecular Sequence Data
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Plasmodium vivax/*genetics/isolation & purification
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Polymerase Chain Reaction
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*Polymorphism (Genetics)
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*Protozoan Proteins
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Receptors, Cell Surface/*analysis/chemistry/*genetics
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Support, Non-U.S. Gov't
3.Identification of a recurrent mutation in the ROR2 gene in a Chinese family with brachydactyly type B.
Wei YANG ; Feng-qin TAN ; Miao SUN ; Xuan ZENG ; Jie LIU ; Guo-yang LIU ; Hui-yuan LUO ; Xue ZHANG
Chinese Journal of Medical Genetics 2004;21(1):61-63
OBJECTIVETo identify the disease-causing mutation in a Chinese family with brachydactyly type B (BDB).
METHODSGenomic DNA was extracted from peripheral blood samples of family members. Exons 8 and 9 of the ROR2 gene were amplified by polymerase chain reaction (PCR) and sequenced directly. Furthermore, the PCR products showing mutation were cloned into pMD18T vector and the insert fragments were sequenced.
RESULTSA 1398-1399 insA heterozygous mutation was detected in the patient. This mutation had been found in German families with BDB.
CONCLUSIONTo the authors' knowledge, it is the first report on identification of the ROR2 pathogenic mutation in Chinese patients with BDB.
Amino Acid Sequence ; Base Sequence ; China ; DNA ; chemistry ; genetics ; DNA Mutational Analysis ; Family Health ; Female ; Fingers ; abnormalities ; Foot Deformities, Congenital ; classification ; genetics ; Hand Deformities, Congenital ; classification ; genetics ; Humans ; Male ; Mutagenesis, Insertional ; Mutation ; Pedigree ; Receptor Tyrosine Kinase-like Orphan Receptors ; Receptors, Cell Surface ; genetics ; Sequence Deletion ; Toes ; abnormalities
4.Duffy Blood Group Genotyping in Thai Blood Donors.
Oytip NATHALANG ; Kamphon INTHARANUT ; Kanokpol SIRIPHANTHONG ; Siriporn NATHALANG ; Pawinee KUPATAWINTU
Annals of Laboratory Medicine 2015;35(6):618-623
BACKGROUND: Duffy (FY) blood group genotyping is important in transfusion medicine because Duffy alloantibodies are associated with delayed hemolytic transfusion reactions and hemolytic disease of the fetus and newborn. In this study, FY allele frequencies in Thai blood donors were determined by in-house PCR with sequence-specific primers (PCR-SSP), and the probability of obtaining compatible blood for alloimmunized patients was assessed. METHODS: Five hundred blood samples from Thai blood donors of the National Blood Centre, Thai Red Cross Society, were included. Only 200 samples were tested with anti-Fy(a) and anti-Fy(b) using the gel technique. All 500 samples and four samples from a Guinea family with the Fy(a-b-) phenotype were genotyped by using PCR-SSP. Additionally, the probability of obtaining antigen-negative red blood cells (RBCs) for alloimmunized patients was calculated according to the estimated FY allele frequencies. RESULTS: The FY phenotyping and genotyping results were in 100% concordance. The allele frequencies of FY*A and FY*B in 500 central Thais were 0.962 (962/1,000) and 0.038 (38/1,000), respectively. Although the Fy(a-b-) phenotype was not observed in this study, FY*B(ES)/FY*B(ES) was identified by PCR-SSP in the Guinea family and was confirmed by DNA sequencing. CONCLUSIONS: Our results confirm the high frequency of the FY*A allele in the Thai population, similar to that of Asian populations. At least 500 Thai blood donors are needed to obtain two units of antigen-negative RBCs for the Fy(a-b+) phenotype.
Adult
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Alleles
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Asian Continental Ancestry Group/genetics
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Base Sequence
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Blood Donors
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DNA/chemistry/genetics/metabolism
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Duffy Blood-Group System/*genetics/immunology
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Female
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Gene Frequency
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Genotype
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Humans
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Isoantibodies/blood/immunology
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Male
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Middle Aged
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Phenotype
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Polymerase Chain Reaction
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Receptors, Cell Surface/genetics/*immunology
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Sequence Analysis, DNA
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Thailand
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Young Adult