1.Effect of Strychinine, a Glycine Inhibitor, on the Programmed Cell Death of Motoneurons during the Chick Development.
Joo Yeon KIM ; So Yoen CHOI ; Hyun KIM ; Woong SUN
Experimental Neurobiology 2011;20(4):176-180
In this study, we report that the treatment of strychinine (STR), an inhibitor of glycine receptor, induced premature onset of programmed cell death (PCD) of developing chick motoneurons (MNs). Treatment of STR on E4 chick embryo increased the apoptosis of MN on E5 when MN PCD does not occur normally. On the other hand, treatment of STR from E3 or E5 for 24 hours did not significantly influence the extent of MN PCD, indicating that the STR effect is developmental stage-specific. However, the expression of glycine receptor isoform was low on E3-4, and other glycine receptor antagonists did not exhibit PCD-promoting activity, suggesting that the STR action on PCD is not related to the glycine receptor activation. Identification of the target molecule for STR action may provide novel mechanism how the onset of developmental PCD is regulated.
Animals
;
Apoptosis
;
Cell Death
;
Chick Embryo
;
Glycine
;
Hand
;
Receptors, Glycine
2.Anti-tuberculosis Treatment-Induced Insulin Autoimmune Syndrome.
Jung Suk HAN ; Han Ju MOON ; Jin Seo KIM ; Hong Il KIM ; Cheol Hyeon KIM ; Min Joo KIM
The Ewha Medical Journal 2016;39(4):122-124
Insulin autoimmune syndrome, a rare cause of endogenous hyperinsulinemic hypoglycemia, is characterized by insulin autoantibody, hyperinsulinemia and fasting hypoglycemia. It is well known that drugs containing a sulfhydryl group such as methimazole or α-mercaptopropionyl glycine can induce insulin autoimmune syndrome. However, insulin autoimmune syndrome caused by anti-tuberculosis treatment is very rare. We report a case of insulin autoimmune syndrome after anti-tuberculosis treatment with a review of the relevant literature.
Glycine
;
Hyperinsulinism
;
Hypoglycemia
;
Insulin*
;
Methimazole
;
Tuberculosis
3.IgG elution method using glycine acid EDTA: comparison to chloroquine method.
Seon Ho LEE ; Young Chul OH ; Ki Hong KIM ; Kyou Sup HAN ; Bok Yun HAN ; Sang In KIM
Korean Journal of Blood Transfusion 1993;4(1):61-66
No abstract available.
Chloroquine*
;
Edetic Acid*
;
Glycine*
;
Immunoglobulin G*
4.Effects of glutamate and glycine on the binding of 3HMK-801 to the N-Methyl-K-Aspartate receptor in rat brain.
Young In CHUNG ; Young Hoon KIM ; Myung Jung KIM
Journal of Korean Neuropsychiatric Association 1993;32(4):545-553
No abstract available.
Animals
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Brain*
;
Glutamic Acid*
;
Glycine*
;
Rats*
7.The glycine receptor.
Hanyang Medical Reviews 2008;28(4):40-47
The glycine receptor (GlyR), a member of the pentameric ligand gated ion channel family, is best known for mediating inhibitory neurotransmission in motor and sensory circuits of the spinal cord, and is also present in the brain stem, cerebellum and retina When glycine binds to its site on the external receptor surface, the pore opens allowing Cl- to passively diffuse across the membrane. Because molecules that increase GlyR current may have clinical potentials as muscle relaxant and peripheral analgesic drug, it is important to understand and study the physiology and molecular pharmacology of the GlyR. We review the pharmacology and physiologic properties, structures, function and heritable disorders of glycinergic neurotransmission.
Brain Stem
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Cerebellum
;
Glycine
;
Humans
;
Ion Channels
;
Membranes
;
Muscles
;
Negotiating
;
Receptors, Glycine
;
Retina
;
Spinal Cord
8.Catalytic mechanism, molecular engineering and applications of threonine aldolases.
Qijia CHEN ; Xi CHEN ; Jianxiong HAO ; Dunming ZHU
Chinese Journal of Biotechnology 2021;37(12):4215-4230
Threonine aldolases catalyze the aldol condensation of aldehydes with glycine to furnish β-hydroxy-α-amino acid with two stereogenic centers in a single reaction. This is one of the most promising green methods for the synthesis of optically pure β-hydroxy-α-amino acid with high atomic economy and less negative environmental impact. Several threonine aldolases from different origins have been identified and characterized. The insufficient -carbon stereoselectivity and the challenges of balancing kinetic versus thermodynamic control to achieve the optimal optical purity and yield hampered the application of threonine aldolases. This review summarizes the recent advances in discovery, catalytic mechanism, high-throughput screening, molecular engineering and applications of threonine aldolases, with the aim to provide some insights for further research in this field.
Amino Acids
;
Catalysis
;
Glycine
;
Glycine Hydroxymethyltransferase/metabolism*
;
Kinetics
;
Substrate Specificity
;
Threonine
9.Severe Glyphosate Intoxication with a Laryngopharyngeal Corrosive Injury.
Kyoung Ho CHOI ; Buyng Hak SO ; Kyu Nam PARK
Journal of the Korean Society of Emergency Medicine 2009;20(5):585-589
Glyphosate is an herbicide that is used worldwide. Suicidal attempts with a glyphosate-surfactant herbicides (GlySH) are on the rise. The severity of corrosive injuries is thought to have a close correlation with a higher complication rate or pulmonary aspiration. We report a case with multiple toxic effects associated with a severe laryngopharyngeal corrosive injury following GlySH intoxciation. Specifically, a severe laryngopharyngeal corrosive injury might be significantly associated with the toxic effects and complications, including respiratory failure and chemical pneumonia, bleeding tendency, increased BUN/Cr ratio, and frequent aspiration due to dysphagia. Appropriate evaluation and management of corrosive injuries may be helpful in caring for GlySH-intoxicated patients.
Deglutition Disorders
;
Glycine
;
Hemorrhage
;
Herbicides
;
Humans
;
Pneumonia
;
Respiratory Insufficiency
10.The structural change of rat cerebral cortex by the in situ perfusion with L-glutamate, glycine and kynurenate.
Kyung Yong KIM ; Won Bok LEE ; Dong Chang KIM
Korean Journal of Anatomy 1992;25(4):418-429
No abstract available.
Animals
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Cerebral Cortex*
;
Glutamic Acid*
;
Glycine*
;
Kynurenic Acid*
;
Perfusion*
;
Rats*