Your search keyword '"Seong, Chang-Soo"' showing total 5 results

1. The level of oncogenic Ras determines the malignant transformation of Lkb1 mutant tissue in vivo

Author

Rackley, Briana, Seong, Chang-Soo, Kiely, Evan, Parker, Rebecca E., Rupji, Manali, Dwivedi, Bhakti, Heddleston, John M., Giang, William, Anthony, Neil, Chew, Teng-Leong, and Gilbert-Ross, Melissa

Published

2021

2. Octopamine receptor OAMB is required for ovulation in Drosophila melanogaster

Author

Lee, Hyun-Gwan, Seong, Chang-Soo, Kim, Young-Cho, Davis, Ronald L., and Han, Kyung-An

Subjects

Developmental biology -- Research, Drosophila -- Physiological aspects, Drosophila -- Research, Ovulation -- Genetic aspects, Ovulation -- Research, Biological sciences

Abstract

Octopamine is a major monoamine in invertebrates and affects many physiological processes ranging from energy metabolism to complex behaviors. Octopamine binds to receptors located on various cell types and activates distinct signal transduction pathways to produce these diverse effects. We previously identified one of the Drosophila octopamine receptors named OAMB that produces increases in cAMP and intracellular [Ca.sup.2+] upon ligand binding. It is expressed at high levels in the brain. To explore OAMB's physiological roles, we generated deletions in the OAMB locus. The resultant oamb mutants were viable without gross anatomical defects. The oamb females displayed normal courtship and copulation; however, they were impaired in ovulation with many mature eggs retained in their ovaries. RT-PCR, in situ hybridization, and expression of a reporter gene revealed that OAMB was also expressed in the thoracicoabdominal ganglion, the female reproductive system, and mature eggs in the ovary. Moreover, analysis of various alleles pinpointed the requirement for OAMB in the body, but not in the brain, for female fecundity. The novel expression pattern of OAMB and its genetic resource described in this study will help advance our understanding on how the neuromodulatory or endocrine system controls reproductive physiology and behavior. Keywords: Octopamine; Octopamine receptor; OAMB; cAMP; Ca [sup.2+]; Ovulation; Oviposition; Egg-laying; Female reproduction; Drosophila

Published

2003

3. Cloning and Characterization of a Novel Drosophila Stress Induced DNase.

Author

Seong, Chang-Soo, Varela-Ramirez, Armando, Tang, Xiaolei, Anchondo, Brenda, Magallanes, Diego, and Aguilera, Renato J.

Subjects

*DROSOPHILA melanogaster, *MOLECULAR clock, *IMMUNE response, *FAT body (Insects), *PEPTIDE antibiotics, *OXIDATIVE stress, *RNA interference, *INSECTS

Abstract

Drosophila melanogaster flies mount an impressive immune response to a variety of pathogens with an efficient system comprised of both humoral and cellular responses. The fat body is the main producer of the anti-microbial peptides (AMPs) with anti-pathogen activity. During bacterial infection, an array of secreted peptidases, proteases and other enzymes are involved in the dissolution of debris generated by pathogen clearance. Although pathogen destruction should result in the release a large amount of nucleic acids, the mechanisms for its removal are still not known. In this report, we present the characterization of a nuclease gene that is induced not only by bacterial infection but also by oxidative stress. Expression of the identified protein has revealed that it encodes a potent nuclease that has been named Stress Induced DNase (SID). SID belongs to a family of evolutionarily conserved cation-dependent nucleases that degrade both single and double-stranded nucleic acids. Down-regulation of sid expression via RNA interference leads to significant reduction of fly viability after bacterial infection and oxidative stress. Our results indicate that SID protects flies from the toxic effects of excess DNA/RNA released by pathogen destruction and from oxidative damage. [ABSTRACT FROM AUTHOR]

Published

2014

4. DNase II deficiency impairs innate immune function in Drosophila

Author

Seong, Chang-Soo, Varela-Ramirez, Armando, and Aguilera, Renato J.

Subjects

*ENZYMES, *PROTEINS, *DROSOPHILA, *NATURAL immunity

Abstract

Abstract: DNase II enzymes are highly conserved proteins that are required for the degradation of DNA within phagolysosomes. Engulfment of apoptotic cells and/or bacteria by phagocytic cells requires the function of DNase II to completely destroy ingested DNA. Mutation of the dnase II gene results in an increase of undegraded apoptotic DNA within phagocytic cells in mice and nematodes. Additionally, reduction of DNase II enzymatic activity in Drosophila melanogaster has been shown to lead to increased accumulation of DNA in the ovaries. Due to the importance of DNA clearance during infection, we hypothesized that a severe reduction of DNase II activity would result in diminished immune function and viability. To test this hypothesis, we knocked down DNase II activity in flies using RNAi. As expected, expression of a dnase II-RNAi construct in flies resulted in a dramatic reduction of DNase II activity and a significant decrease in total hemocyte numbers. Furthermore, infection of dnase II-RNAi flies with Gram negative or positive bacteria resulted in a severe reduction in fly viability. These results confirm that DNase II and the ability to clear macromolecular DNA is essential for maintaining proper immune function in Drosophila. [Copyright &y& Elsevier]

Published

2006

5. Expression of a D1 dopamine receptor dDA1/DmDOP1 in the central nervous system of Drosophila melanogaster

Author

Kim, Young-Cho, Lee, Hyun-Gwan, Seong, Chang-Soo, and Han, Kyung-An

Subjects

*DROSOPHILA melanogaster, *DOPAMINE receptors, *CENTRAL nervous system, *GENE expression

Abstract

The diverse physiological effects of dopamine are mediated by multiple receptor systems. The dDA1 represents one of the Drosophila dopamine receptors that activate the cAMP cascade. To gain insight into the role of dDA1, we generated a polyclonal antibody against the unique sequence in dDA1 and investigated dDA1 distribution in the central nervous system (CNS) of Drosophila melanogaster. In both larval and adult CNS pronounced dDA1 immunoreactivity was present in the neuropil of the mushroom bodies, a brain structure crucial for learning and memory in insects, and four unpaired neurons in each thoracic segment. In addition, the larval abdominal ganglion contained two dDA1 cells in each segment. This expression pattern appeared to be maintained in the condensed adult abdominal ganglion although the precise number and the intensity of staining were somewhat variable. The adult CNS also exhibited intense dDA1 immunoreactivity in the central complex, a structure controlling higher-order motor function, moderate expression in several neurosecretory cells, and weak staining in two unpaired neurons in the mesothoracic neuromere. The dDA1 expression in these areas was only detected in adult, but not in third instar larval CNS. [Copyright &y& Elsevier]

Published

2003