The Interactions of Potassium Hydroxide in the Vicinity of Connective Disulfide Bonds of the Fab Regions of Some Human Immunoglubulins: Preliminary Computational Implications for Affinity on Cys-Cys Disulfide Bridges

Zumrutdal, Emin

doi:10.1101/2022.08.14.503886

Cited by 2 publications

(2 citation statements)

References 26 publications

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“…In another study with the KOH molecule, the affinity of KOH for disulfide bonds in some human immunoglobulins (Ig) Fab region was demonstrated by intermolecular interactions (27). These findings suggest that KOH potentially induces low-weight Ig production.…”

Section: Discussionmentioning

confidence: 99%

Virucidal Activity of Potassium Hydroxide Modeling on Tospovirus

Zumrutdal

Kamberoğlu

SAĞLAM>

2022

Preprint

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Viral agents that cause disease in the respiratory system have led to widespread health problems in the world. The continuation of mutations in these viruses and the lack of an effective treatment agent bring possible public health risks. In this study, the virucidal activity of potassium hydroxide (KOH) was evaluated. The intermolecular interactions of KOH and envelope-structured molecules in enveloped viruses and the virucidal activity of these interactions on Tospovirus, which has the ability to infect, were evaluated. For this study model, the intermolecular interactions of KOH in the lipid bilayer of the virus envelope were evaluated in silico by Doking method. Then, the plant virulence ability of Tospovirus was observed by the direct interaction of KOH with Tospovirus. It was observed that KOH interacted exergonically with the glycerophosphate structure in the envelope structure. It was determined by clinical and laboratory observations that Tospovirus in plants lost its virucidal activity after interaction with KOH. In the light of this information, it was thought that KOH had a virucidal effect in enveloped viruses. It is thought that KOH creates this virucidal activity by KOH-glycerophosphate intermolecular interactions and viral envelope lipid layer hydrolysis. The mucolytic, alkalinizing and possible low-weight immunoglobulin-forming potential of KOH has been demonstrated in previous studies and no pathology was detected in toxicity studies in mice. In the light of this information, optimized KOH inhalation has a very serious potential as a virucidal agent in diseases caused by enveloped viruses in the respiratory system such as Coronavirus, H. influenza.

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Section: Discussionmentioning

confidence: 99%

Virucidal Activity of Potassium Hydroxide Modeling on Tospovirus

Zumrutdal

Kamberoğlu

SAĞLAM>

2022

Preprint

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“…In this way, there have been developments in the treatment of many diseases such as allergic, immunological, viral diseases or cancer. In the in silico study included in the discussion, it was found that the binding affinity of KOH to the region of the disulfide bonds between the heavy and light chain on the Ig structure with -1 kcal/mol increased up to the level of -3 kcal/mol with the increase in the number of KOH molecules [3]. The study showed the potential of this effect to form new small-weight Ig by breaking the disulfide bond between the heavy and light chains (Figure 1).…”

Section: Introductionmentioning

confidence: 99%

"Short Communication on the Potential Activity of Potassium Hydroxide on the Formation of Low-Weight Immunoglobulin"

Zumrutdal

2022

BJSTR

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Advances in technology and industry have sometimes negatively affected human life in harmony with nature. Some of the important ones are the increasing health problems, especially allergic, immunological, viral diseases and cancer. These increasing health problems have brought about the search for antibody treatments. In the discussed study, the potential effectiveness of the spontaneous intermolecular exergonic interaction between potassium hydroxide(KOH) and immunoglobulin(Ig) heavy and light chain disulfide bonds on low molecular weight Ig formation was emphasized. In this article, the results of the effect of KOH on disulfide bonds in Ig are discussed in the light of previous knowledge. The interest of KOH in the region of disulfide bonds, which leads to breakage and increased mobility in Ig structures, is quite remarkable. Therefore, KOH inhalation may be a potential molecule in the treatment of many diseases such as allergic, immunological, viral diseases and cancer.

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The Interactions of Potassium Hydroxide in the Vicinity of Connective Disulfide Bonds of the Fab Regions of Some Human Immunoglubulins: Preliminary Computational Implications for Affinity on Cys-Cys Disulfide Bridges

Cited by 2 publications

References 26 publications

Virucidal Activity of Potassium Hydroxide Modeling on Tospovirus

Virucidal Activity of Potassium Hydroxide Modeling on Tospovirus

"Short Communication on the Potential Activity of Potassium Hydroxide on the Formation of Low-Weight Immunoglobulin"

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