Yeonsoo Kwak scite author profile

Yeonsoo Kwak

5Publications

3Citation Statements Received

0Citation Statements Given

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The University of Texas MD Anderson Cancer Center

Publications

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Relationship of Resistance to Benzimidazole Fungicides with Mutation of β-Tubulin Gene in Venturia nashicola

Kwak¹,

Min²,

Song³

et al. 2017

Research in Plant Disease

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Pear scab caused by Venturia nashicola has been reported as an important disease of pear resulting in lowering the quality of pear fruits. In this study, it was conducted to investigate the relationship between resistance of V. nashicola and mutation of β-tubulin gene and the fungicide resistance in field isolate group in benzimidazole fungicides. Responce of V. nashicola to carbendazim could be classified into 3 groups as sensitive that does not grow at all on PDA amended with 0.16 μg/ml of carbendazim, low resistance that could not grow in 4.0 μg/ml medium, and high resistance that can grow even at 100 μg/ml. Thirty isolates of V. nashicola collected from 3 regions as Wonju, Naju, and Okcheon were highly resistant to carbendazim. Analysis of the nucleotide sequence of β-tubulin gene of V. nashicola showed that there was no difference in the nucleotide sequence between the sensitive and the lowresistant isolate, but GAG at codon 198 (glutamic acid) was replaced with GCG (alanine) in the highresistant isolate. Among 10 isolates obtained from the Okcheon, 5 isolates showed the substitution of glycine for glutamic acid, which were resistant to carbendazim, but more sensitive to the mixture of carbendazim and diethofencarb than others. Through these results, all isolates of V. nashicola isolated in pear orchard were found to be resistant to benzimidazoles. Also, mutants E198A and E198G at β-tubulin were found to be important mechanisms of V. nashicola resistance against benzimidazole fungicides.

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R7, a Spontaneous Mutant of Moloney Murine Sarcoma Virus 124 with Three Direct Repeats and an In-Frame Truncatedgag-mosGene, Induces Brain Lesions

Yuen

Kwak

1997

Virology

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We have isolated Recombinant 7 (R7), a spontaneous mutant of SV7, a molecular clone of MoMuSV124. Like SV7, R7 induces subcutaneous fibrosarcomas, spleen tumors, and mesentery tumors infiltrated by proliferating vessels lined by transformed endothelial cells. However, it also induces brain lesions. We have molecularly cloned and sequenced the R7 proviral DNA and shown that the R7 genome consists of 3401 bp. It has three direct repeats in each enhancer. Its coding sequence consists of only 176 bp of p15, 263 bp of p30, a 7-bp insertion, and 853 bp of an N-terminally truncated mos gene. From the sequence of R7 we have deduced that the truncated mos sequence is in-frame with all of the gag sequence and the 7-bp insertion. The incorporation of the 3' end of the p15 sequence further suggests that the R7 Gag-Mos is myristylated. We have also shown that the molecularly cloned R7 virus transformed NIH/3T3 fibroblasts about sevenfold better than the parental SV7. We have also confirmed that molecularly cloned R7 induces the same disease phenotype as that induced by the nonmolecularly cloned R7.

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Ceramic based Nanofiltration Membrane for Wastewater Treatment: A Review

Kwak¹,

Patel²

2022

membr. J.

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Oily Wastewater Treatment by Ceramic Membrane: A Review

Kwak¹,

Patel²

2022

membr. J.

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A Review on Ceramic Based Membranes for Textile Wastewater Treatment

Kwak¹,

Patel²

2022

membr. J.

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Yeonsoo Kwak

Relationship of Resistance to Benzimidazole Fungicides with Mutation of β-Tubulin Gene in Venturia nashicola

R7, a Spontaneous Mutant of Moloney Murine Sarcoma Virus 124 with Three Direct Repeats and an In-Frame Truncatedgag-mosGene, Induces Brain Lesions

Ceramic based Nanofiltration Membrane for Wastewater Treatment: A Review

Oily Wastewater Treatment by Ceramic Membrane: A Review

A Review on Ceramic Based Membranes for Textile Wastewater Treatment

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