Your search keyword '"Deivasigamani A"' showing total 59 results

1. Visible light responsive heterophase Titania monoliths for the fast and efficient photocatalytic decontamination of organic pollutants

Author

Denna Babu, Dhivya Jagadeesan, T. V. L. Thejaswini, Akhila Maheswari Mohan, and Prabhakaran Deivasigamani

Subjects

Undoped Titania, Heterophase, Mesoporous Monolith, Visible light, Photocatalysis, Medicine, Science

Abstract

Abstract The article reports the synthesis of an ordered mesoporous network of heterophase TiO2 monoliths as a visible light-responsive photocatalyst using tri-block copolymers of Pluronic F108, P123 and F127 as structure-directing agents (SDAs) and temperature-controlled calcination (450–650 °C) has been carried out by direct templating-assisted hydrothermal approach. The structural/surface morphology and topographical properties of the photocatalyst are characterized using FE-SEM-EDAX, HR-TEM-SAED, p-XRD, VB-XPS, PLS, TG/DTA, UV-Vis-DRS, BET/BJH and zeta potential analysis. The undoped heterophase mesoporous TiO2 monoliths with in-built lattice/surface defects exhibit visible light photocatalytic properties, successfully dissipating Reactive Brown 10 (RB-10) dye. The influence of physicochemical parameters, such as SDAs, temperature, pH, dye concentration, catalyst dosage, photosensitizers and light intensities, are optimized for maximum photocatalytic performance at a shorter timespan. The F127-assisted mesoporous TiO2 monolith (550 °C) exhibits superior degradation kinetics (15 min) for RB-10 dye solution (20 ppm) at pH 2.0–3.0 using a photocatalyst dosage of 50 mg and 2 mM of KBrO3, irradiated with 150 W/cm2 tungsten lamp. The photocatalysts are fabricated without complicated chemical modifications and display topmost efficiency in quickly decontaminating persistent pollutants. The photoproducts from RB-10 photocatalytic degradation are investigated using HR-MS analysis. The photocatalyst can be reused efficiently for six cycles, even under extreme conditions.

Published

2024

2. An efficient colorectal cancer detection network using atrous convolution with coordinate attention transformer and histopathological images

Author

Majdi Khalid, Sugitha Deivasigamani, Sathiya V, and Surendran Rajendran

Subjects

Colorectal cancer, Colorectal cancer detection network, Atrous convolution with coordinate attention transformer, Cross-shaped window transformer, Histopathology image, Medicine, Science

Abstract

Abstract The second most common type of malignant tumor worldwide is colorectal cancer. Histopathology image analysis offers crucial data for the clinical diagnosis of colorectal cancer. Currently, deep learning techniques are applied to enhance cancer classification and tumor localization in histopathological image analysis. Moreover, traditional deep learning techniques might loss integrated information in the image while evaluating thousands of patches recovered from whole slide images (WSIs). This research proposes a novel colorectal cancer detection network (CCDNet) that combines coordinate attention transformer with atrous convolution. CCDNet first denoises the input histopathological image using a Wiener based Midpoint weighted non-local means filter (WMW-NLM) for guaranteeing precise diagnoses and maintain image features. Also, a novel atrous convolution with coordinate attention transformer (AConvCAT) is introduced, which successfully combines the advantages of two networks to classify colorectal tissue at various scales by capturing local and global information. Further, coordinate attention model is integrated with a Cross-shaped window (CrSWin) transformer for capturing tiny changes in colorectal tissue from multiple angles. The proposed CCDNet achieved accuracy rates of 98.61% and 98.96%, on the colorectal histological image and NCT-CRC-HE-100 K datasets correspondingly. The comparison analysis demonstrates that the suggested framework performed better than the most advanced methods already in use. In hospitals, clinicians can use the proposed CCDNet to verify the diagnosis.

Published

2024

3. Silicosis presenting as progressive massive fibrosis: A case series

Author

Mohanakrishnan Deivasigamani, Manikandan Nagesh, Balamurugan Shanthalingam, and Chandrasekar Chokalingam

Subjects

silicosis, progressive massive fibrosis, coal workers’ pneumoconiosis, Diseases of the respiratory system, RC705-779

Abstract

Progressive massive fibrosis (PMF) is a severe form and late-stage chronic pneumoconiosis defined by the clustering of silicotic nodules fused with connective tissue in silicosis and coal macules surrounded by fibrous tissue in coal workers’ pneumoconiosis. High levels of exposure to silica and coal mine dust are important risk factors for the development of PMF. A thorough occupational history and radiological investigation would help in the diagnosis and prevention of this condition, as there is no effective treatment. Hence, primary prevention is important as it has high mortality and morbidity. Newer health strategies, including periodical screening, evaluation, treatment, and awareness, are needed among workers who are exposed to these health hazards.

Published

2024

4. Facile synthesis of iron nanoparticles from Camellia Sinensis leaves catalysed for biodiesel synthesis from Azolla filiculoides

Author

Sathish Sundararaman, M. Karthikeyan, J. Aravind kumar, Prabu Deivasigamani, Michael Rahul Soosai, A. Ramaraja, S. Sahana, Badr M. Thamer, Mohamed H. El-Newehy, M. Rajasimman, and Praveenkumar T R

Subjects

Camellia sinensis leaves, Biodiesel, Transesterification, Kinetics, Optimization, Medicine, Science

Abstract

Abstract Recent years have seen an increase in research on biodiesel, an environmentally benign and renewable fuel alternative for traditional fossil fuels. Biodiesel might become more cost-effective and competitive with diesel if a solid heterogeneous catalyst is used in its production. One way to make biodiesel more affordable and competitive with diesel is to employ a solid heterogeneous catalyst in its manufacturing. Based on X-ray diffraction (XRD) and Fourier Transform infrared spectroscopy (FTIR), the researchers in this study proved their hypothesis that iron oxide core–shell nanoparticles were generated during the green synthesis of iron-based nanoparticles (FeNPs) from Camellia Sinensis leaves. The fabrication of spherical iron nanoparticles was successfully confirmed using scanning electron microscopy (SEM). As a heterogeneous catalyst, the synthesised catalyst has shown potential in facilitating the conversion of algae oil into biodiesel. With the optimal parameters (0.5 weight percent catalytic load, 1:6 oil—methanol ratio, 60 °C reaction temperature, and 1 h and 30 min reaction duration), a 93.33% yield was attained. This may be due to its acid–base property, chemical stability, stronger metal support interaction. Furthermore, the catalyst was employed for transesterification reactions five times after regeneration with n-hexane washing followed by calcination at 650 °C for 3 h.

Published

2024

5. CoFe-MOF nanoarray as flexible microelectrode for electrochemical detection of catechol in water samples

Author

S. Arivuselvan, Mari Elancheziyan, Raji Atchudan, Deivasigamani Ranjith Kumar, E. Sivasurya, S. Philomina Mary, Pandi Muthirulan, Keehoon Won, and Manoj Devaraj

Subjects

Nanoarray microelectrode, Catechol, Electrochemical sensor, Cyclic voltammetry, Redox mediator, Nonenzymatic sensor, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

A simple, selective, and straightforward enzyme-free electrochemical sensor has been designed and developed using cobalt hexacyanoferrate metal-organic framework (CoFe-MOF) nanoarray. The prepared CoFe-MOF nanoarray has been successfully grown over a carbon cloth (CC) to form CoFe-MOF/CC as a flexible microelectrode for the detection of catechol. The surface of the activated CC was covered uniformly with CoFe-MOF in the form of nanoarray and exhibited double-shelled cubic morphology. The CoFe-MOF/CC nanoarray microelectrode showed a pair of well-defined redox peaks corresponding to the [Fe(CN)6]4-/3- redox signal. Interestingly, the fabricated nanoarray microelectrode has displayed superior peak current at lower onset potential with high electrochemical response compared to unmodified potassium hexacyanoferrate (K3 [Fe(CN)6]) over CC microelectrode and bare activated CC. Further, the developed CoFe-MOF/CC nanoarray microelectrode for the oxidation of catechol was examined with consecutive injections of catechol. A fast and noticeable improvement in oxidation peak current was observed, thus representing the excellent electrocatalytic oxidation of catechol at the modified nanoarray microelectrode. Besides, CoFe-MOF/CC microelectrode exhibits an excellent linear response over a concentration range from 0.005 to 2.8 mM with low detection limit (LOD) and high sensitivity of 0.002 mM (S/N = 3) and 205.99 μA/mM, respectively. Moreover, the prepared nonenzymatic sensor showed outstanding stability, acceptable reproducibility, and repeatability, along with good interference ability. Catechol in spiked water samples was successfully quantified.

Published

2024

6. A Case of Quadrivial Pattern of Right Upper Lobe Bronchus

Author

Mohanakrishnan Deivasigamani, Chandrasekar Chockalingam, Balamurugan Santhalingam, and Manikandan Nagesh

Subjects

axillary segment bronchus, fob, quadrivial pattern of right upper lobe bronchus, segmentectomy, three-dimensional computed tomography bronchography, Medicine

Abstract

The knowledge of the tracheobronchial tree is fundamental for a bronchoscopist, especially for diagnostic, therapeutic, and surgical options that are under consideration. Among all lobes, the right upper lobe (RUL) has a relatively high incidence of tumor and airspace diseases. Most bronchial anomalies are on the right side. Bifurcation is the most common anatomical variation. Quadrification has a very low prevalence. We report the case of a 54-year-old male who came with complaints of hemoptysis and showed a quadrivial type of bronchial division of RUL during a bronchoscopic examination after which three-dimensional computed tomography bronchography showed a supernumerary lateral or axillary segment bronchus. Awareness of this variant may explain otherwise confusing findings and its clinical implication is important for every pulmonologist.

Published

2024

7. Challenges and Advances in Biomarker Detection for Rapid and Accurate Sepsis Diagnosis: An Electrochemical Approach

Author

Deivasigamani Ranjith Kumar, Angelika Banaś, and Katarzyna Krukiewicz

Subjects

sepsis, electrochemical sensor, blood sample, biomarker detection, Biotechnology, TP248.13-248.65

Abstract

Sepsis is a life-threatening condition with high mortality rates due to delayed treatment of patients. The conventional methodology for blood diagnosis takes several hours, which suspends treatment, limits early drug administration, and affects the patient’s recovery. Thus, rapid, accurate, bedside (onsite), economical, and reliable sepsis biomarker reading of the clinical sample is an emergent need for patient lifesaving. Electrochemical label-free biosensors are specific and rapid devices that are able to perform analysis at the patient’s bedside; thus, they are considered an attractive methodology in a clinical setting. To reveal their full diagnostic potential, electrode architecture strategies of fabrication are highly desirable, particularly those able to preserve specific antibody–antigen attraction, restrict non-specific adsorption, and exhibit high sensitivity with a low detection limit for a target biomarker. The aim of this review is to provide state-of-the-art methodologies allowing the fabrication of ultrasensitive and highly selective electrochemical sensors for sepsis biomarkers. This review focuses on different methods of label-free biomarker sensors and discusses their advantages and disadvantages. Then, it highlights effective ways of avoiding false results and the role of molecular labels and functionalization. Recent literature on electrode materials and antibody grafting strategies is discussed, and the most efficient methodology for overcoming the non-specific attraction issues is listed. Finally, we discuss the existing electrode architecture for specific biomarker readers and promising tactics for achieving quick and low detection limits for sepsis biomarkers.

Published

2024

8. Porous organic polymers-based fluorescent chemosensors for Fe(III) ions-a functional mimic of siderophores

Author

Binduja Mohan, Ananthu Shanmughan, Alenthwar Vamshi Krishna, Mannanthara Kunhumon Noushija, Deivasigamani Umadevi, and Sankarasekaran Shanmugaraju

Subjects

porous organic polymers, luminescence polymer, chemosensors, fluorescence sensing of Fe(III) ions, siderophores, Chemistry, QD1-999

Abstract

Extended organic polymers such as amorphous Covalent Organic Polymers (COPs) and crystalline Covalent Organic Frameworks (COFs) are emerging functional polymeric materials that have recently been shown promises as luminescent materials for chemosensing applications. A wide variety of luminescence COPs and COFs have been synthesized and successfully used as fluorescence-sensing materials for hazardous environmental pollutants and toxic contaminants. This review exemplifies various COPs and COFs-based fluorescence sensors for selective sensing of Fe(III) ions. The fluorescence sensors are sorted according to their structural features and each section provides a detailed discussion on the synthesis and fluorescence sensing ability of different COPs and COFs towards Fe(III) ions. Also, this review highlights the limitations of the existing organic polymer-based chemosensors and future perspectives on translating COPs and COFs-based fluorescence sensors for the practical detection of Fe(III) ions.

Published

2024

9. Urinary fatty acid biomarkers for prostate cancer detection.

Author

Elizabeth Noriega Landa, George E Quaye, Xiaogang Su, Sabur Badmos, Kiana L Holbrook, Thomas J Polascik, Eric S Adams, Sriram Deivasigamani, Qin Gao, Michael H Annabi, Ahsan Habib, and Wen-Yee Lee

Subjects

Medicine, Science

Abstract

The lack of accuracy in the current prostate specific antigen (PSA) test for prostate cancer (PCa) screening causes around 60-75% of unnecessary prostate biopsies. Therefore, alternative diagnostic methods that have better accuracy and can prevent over-diagnosis of PCa are needed. Researchers have examined various potential biomarkers for PCa, and of those fatty acids (FAs) markers have received special attention due to their role in cancer metabolomics. It has been noted that PCa metabolism prefers FAs over glucose substrates for continued rapid proliferation. Hence, we proposed using a urinary FAs based model as a non-invasive alternative for PCa detection. Urine samples collected from 334 biopsy-designated PCa positive and 232 biopsy-designated PCa negative subjects were analyzed for FAs and lipid related compounds by stir bar sorptive extraction coupled with gas chromatography/mass spectrometry (SBSE-GC/MS). The dataset was split into the training (70%) and testing (30%) sets to develop and validate logit models and repeated for 100 runs of random data partitioning. Over the 100 runs, we confirmed the stability of the models and obtained optimal tuning parameters for developing the final FA based model. A PSA model using the values of the patients' PSA test results was constructed with the same cohort for the purpose of comparing the performances of the FA model against PSA test. The FA final model selected 20 FAs and rendered an AUC of 0.71 (95% CI = 0.67-0.75, sensitivity = 0.48, and specificity = 0.83). In comparison, the PSA model performed with an AUC of 0.51 (95% CI = 0.46-0.66, sensitivity = 0.44, and specificity = 0.71). The study supports the potential use of urinary FAs as a stable and non-invasive alternative test for PCa diagnosis.

Published

2024

10. Dual Anti-Inflammatory and Anticancer Activity of Novel 1,5-Diaryl Pyrazole Derivatives: Molecular Modeling, Synthesis, In Vitro Activity, and Dynamics Study

Author

Priya Deivasigamani, S. M. Esther Rubavathy, Narayanan Jayasankar, Venkatesan Saravanan, Ramasamy Thilagavathi, Muthuramalingam Prakash, Chelliah Selvam, Rajakrishnan Rajagopal, Ahmed Alfarhan, Muthu Kumaradoss Kathiravan, Selvaraj Arokiyaraj, and Jesu Arockiaraj

Subjects

anti-inflammatory, anticancer, 1,5-diaryl pyrazole, COX enzyme, Biology (General), QH301-705.5

Abstract

A series of novel 1,5-diaryl pyrazole derivatives targeting the COX enzyme were designed by combined ligand and structure-based approach. The designed molecules were then further subjected to ADMET and molecular docking studies. Out of 34 designed compounds, the top-10 molecules from the computation studies were synthesized, characterized, and evaluated for COX-2 inhibition and anti-cancer activity. Initially, the target compounds were screened for the protein denaturation assay. The results of the top-five molecules T2, T3, T5, T6, and T9 were further subjected to in vitro COX-2 enzymatic assay and anti-cancer activity. As far as COX-2 inhibitory activity is considered, two compounds, T3 and T5, exhibited the half maximum inhibitory concentration (IC50) at 0.781 µM and 0.781 µM respectively. Further, the two compounds T3 and T5, when evaluated for COX-1 inhibition, exhibited excellent inhibitory activity with T3 IC50 of 4.655μM and T5 with IC50 of 5.596 μM. The compound T5 showed more significant human COX-2 inhibition, with a selectivity index of 7.16, when compared with T3, which had a selectivity index of 5.96. Further, in vitro anti-cancer activity was screened against two cancer cell lines in which compounds T2 and T3 were active against A549 cell lines and T6 was active against the HepG2 cell line. Stronger binding energy was found by comparing MM-PBSA simulations with molecular docking, which suggests that compounds T3 and T5 have a better possibility of being effective compounds, in which T5 showed higher binding affinity. The results suggest that these compounds have the potential to develop effective COX-2 inhibitors as anti-cancer agents.

Published

2024

11. Polybenzoxazine-Based Nitrogen-Containing Porous Carbon and Their Composites with NiCo Bimetallic Oxides for Supercapacitor Applications

Author

Thirukumaran Periyasamy, Shakila Parveen Asrafali, Seong-Cheol Kim, Deivasigamani Ranjith Kumar, and Jaewoong Lee

Subjects

hetero atom, porous carbon, bimetallic oxide, calcination temperature, electrode materials, SC application, Organic chemistry, QD241-441

Abstract

Supercapacitors (SCs) are considered as emerging energy storage devices that bridge the gap between electrolytic capacitors and rechargeable batteries. However, due to their low energy density, their real-time usage is restricted. Hence, to enhance the energy density of SCs, we prepared hetero-atom-doped carbon along with bimetallic oxides at different calcination temperatures, viz., HC/NiCo@600, HC/NiCo@700, HC/NiCo@800 and HC/NiCo@900. The material produced at 800 °C (HC/NiCo@800) exhibits a hierarchical 3D flower-like morphology. The electrochemical measurement of the prepared materials was performed in a three-electrode system showing an enhanced specific capacitance for HC/NiCo@600 (Cs = 1515 F g−1) in 1 M KOH, at a current density of 1 A g−1, among others. An asymmetric SC device was also fabricated using HC/NiCo@800 as anode and HC as cathode (HC/NiCo@600//HC). The fabricated device had the ability to operate at a high voltage window (~1.6 V), exhibiting a specific capacitance of 142 F g−1 at a current density of 1 A g−1; power density of 743.11 W kg−1 and energy density of 49.93 Wh kg−1. Altogether, a simple strategy of hetero-atom doping and bimetallic inclusion into the carbon framework enhances the energy density of SCs.

Published

2024

12. Performance of implantable antenna at ISM band characteristics for biomedical base

Author

G. Narmadha, M. Malathi, Srinivasan Ashok Kumar, T. Shanmuganantham, and S. Deivasigamani

Subjects

Bio-medical application, Implantable antenna, 2.45 GHz, Information technology, T58.5-58.64

Abstract

A novel and small sized implantable antenna has been proposed for scientific industrial & medical (ISM) band applications. The proposed antenna is — shaped antenna and it is a circular patch antenna which has been designed based on the previous research articles and the lower size is achieved by implementing different miniaturization techniques. The radiating structure has a circular shaped patch and it has fillet edges with square shape. The back reflections have been avoided by extending the ground plane over the complete plane. The proposed antenna has been structured by using ROGER 3010 substrate which has the thickness of 1.6 mm and dielectric permittivity of 10.2 in order to achieve the geometries of an antenna with rigidity, the proposed structure has been designed. This antenna structure is operated at 2.45 GHz with the most recommended omni-directional pattern that has been used for transmitting with other in body devices.

Published

2022

13. Compliance with hand hygiene practices and its appropriateness among healthcare workers during COVID-19 pandemic in public health facilities of Tamil Nadu, India

Author

Yuvaraj Krishnamoorthy, Kala M, Deivasigamani Kuberan, Murali Krishnan, and Devidas Tondare

Subjects

COVID-19, Hand hygiene, Healthcare associated infection, Patient safety, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Background: Compliance with appropriate hand hygiene practises is the most efficient and cost-effective intervention that can be implemented in the healthcare setting. Given its importance, we tried to capture the compliance with hand hygiene practises and their appropriateness among healthcare workers during the COVID-19 pandemic in public health facilities in Tamil Nadu. Methods: This cross-sectional study involved doctors, nurses, and allied healthcare professionals from various departments in 18 public healthcare facilities spanning six districts in Tamil Nadu. A random-intercept model was employed for the multivariable logistic regression analysis to evaluate the factors influencing hand hygiene compliance and its adequacy. The effect size was presented as an adjusted odds ratio (aOR) accompanied by a 95% confidence interval (CI). Results: In total, 2733 hand hygiene observations were made. Only during 19.4% (95%CI: 17.9%–20.9%) of these observations, hand washing was done. Only during 37.9% (95%CI: 33.9%–42.1%) of these observations, hand washing was done appropriately by following all the essential steps of hand hygiene. Nurses (aOR = 2.49; 95%CI: 1.90–3.26), healthcare workers in General Surgery (aOR = 2.18; 95%CI: 1.53–3.10) and Obstetrics & Gynaecology departments (aOR = 1.75; 95%CI: 1.26–2.43), working in inpatient departments (aOR = 2.64; 95%CI: 1.38–5.04) had significantly higher compliance to hand hygiene practices. Nurses (aOR = 2.58; 95%CI: 1.33–5.01) and General Medicine department healthcare workers (aOR = 1.98; 95%CI: 1.09–3.61) had significantly higher compliance to appropriate hand hygiene practices. Conclusion: Our study shows that only during one-fifth of the observations did healthcare workers do hand washing, and less than 10% did it appropriately by following all the essential steps of hand hygiene.

Published

2023

14. The aberrant upregulation of exon 10-inclusive SREK1 through SRSF10 acts as an oncogenic driver in human hepatocellular carcinoma

Author

Cunjie Chang, Muthukumar Rajasekaran, Yiting Qiao, Heng Dong, Yu Wang, Hongping Xia, Amudha Deivasigamani, Minjie Wu, Karthik Sekar, Hengjun Gao, Mengqing Sun, Yuqin Niu, Qian Li, Lin Tao, Zhen Yan, Menglan Wang, Shasha Chen, Shujuan Zhao, Dajing Chen, Lina Li, Fan Yang, Haojin Gao, Baodong Chen, Ling Su, Liang Xu, Ye Chen, Veerabrahma Pratap Seshachalam, Gongxing Chen, Jayantha Gunaratne, Wanjin Hong, Junping Shi, Gongying Chen, David S. Grierson, Benoit Chabot, Tian Xie, Kam Man Hui, and Jianxiang Chen

Subjects

Science

Abstract

Alternative splicing is dysregulated in hepatocellular carcinoma. Here, the authors investigate the role of the splice variant of Splicing Regulatory Glutamic Acid and Lysine Rich Protein 1 (SREK1) and its upstream regulator, Serine/arginine-rich splicing factor 10 (SRSF10) in sustaining the oncogenic signal.

Published

2022

15. Bioconversion of chitin waste through Stenotrophomonas maltophilia for production of chitin derivatives as a Seabass enrichment diet

Author

Kumaran Subramanian, Deivasigamani Balaraman, Mani Panangal, Tentu Nageswara Rao, Elumalai Perumal, Amutha R, Alagappan Kumarappan, Pugazhvendan Sampath Renuga, Suresh Arumugam, Rajasekar Thirunavukkarasu, Wilson Aruni, and Suliman Yousef AlOmar

Subjects

Medicine, Science

Abstract

Abstract Marine wastes pose a great threat to the ecosystem leading to severe environmental hazards and health issues particularly the shellfish wastes. The shellfish waste which contains half of the amount of chitin can be efficiently transformed into useful products. Various approaches for the hydrolysis of chitin like physical, chemical, and enzymatic processes are there. Still, the use of enzyme chitinase is well documented as an effective and eco-friendly method. The present study summarizes the isolation of chitinase enzyme producing bacteria from different shrimp waste disposal sites in Parangipettai (India), and the possible use of an enzyme hydrolyzate as an immunostimulant to Asian Seabass (Lates calcarifer). The potential chitinase-producing bacteria were identified by 16S rRNA gene sequencing as Stenotrophomonas maltophilia. After purification, the chitinase specific activity was 5.01 (U/ml) and the protein content was 72 mg and the recovery rate was 48.06%. The optimum pH and temperature for the chitinolytic activity were 6.5 and at 35–50 °C, respectively. The animal experiment trial was done with our feed supplements which included 0.0 (control), 0.5%, 1% and 2% of chitin degraded product. All the supplementary feed had an optimal 42% (w/w) of crude protein. The feed protein level was 41–43% on average and gross energy was 13–17 kcal/g and the feed was observed to exhibit a significantly higher (p

Published

2022

16. Temperature-Dependent Dielectric Studies of Copper-and-Magnesium-Doped Zinc Aluminate: Implications for Electrical Behaviour

Author

Yasmin Jamil, Gracie. P. Jeyakumar, and Geetha Deivasigamani

Subjects

combustion method, band gap, Maxwell–Wagner, Ac conductivity, Engineering machinery, tools, and implements, TA213-215

Abstract

Copper (Cu2+)-and-magnesium (Mg2+)-doped Zinc aluminate ZnAl2O4 is a promising material with diverse applications in electronic and energy storage devices. In this study, the synthesis of Zn0.9MxAl2O4 (M = Cu2+ and Mg2+; x = 0.00 and 0.10) was conducted via the sol–gel combined combustion technique. The structural, spectral, optical and dielectric parameters of the synthesized spinel aluminates were analysed to explore the substitution effect of Cu2+ and Mg2+ content. The formation and crystallinity analyses of the single-phase cubic spinel structure in the synthesized spinel aluminates were confirmed using XRD patterns. The lattice parameter and grain size were ascertained from the XRD data. The crystallite size of Cu2+ and Mg2+ substituted into ZnAl2O4 using Scherrer’s formula was found to be around 22 nm. The spinel structure formations in the prepared spinel aluminates were ascertained through an FT-IR study. The UV-Vis spectra exhibited a broad absorption band in the UV-Vis region, indicating the presence of electronic transitions. The band gap energy of the prepared aluminates was estimated from the absorption edge, with values varying between 2.90 eV and 3.03 eV, revealing its suitability for optoelectronic applications. Measurement of the dielectric parameters was performed in the frequency range of 100 Hz to 20 MHz at temperatures ranging from 30 °C to 250 °C. The dielectric constant (ε′) and dielectric loss (ε”) were determined as a function of frequency at different temperatures. The results showed that the dielectric constant decreased with increasing frequency for all the observed temperatures, while the dielectric loss exhibited a peak at a specific temperature. The conductivity results indicate that the conduction mechanism occurred due to polaron hopping. The Arrhenius relation was adopted to calculate the activation energies Ea for all the samples, and the values were between 0.70 eV and 0.38 eV. The obtained results were discussed and interpreted. These findings contribute to our understanding of the electrical behaviour of doped zinc aluminate materials and their useful applications in different electronic and energy systems.

Published

2023

17. Room Temperature Electrical Analysis of Pr3+-Doped Silicate Glasses for Energy Storage Applications

Author

Gracie. P. Jeyakumar, Yasmin Jamil, and Geetha Deivasigamani

Subjects

composite glasses, praseodymium, dielectric, Cole–Cole plot, energy storage, Engineering machinery, tools, and implements, TA213-215

Abstract

Composite glasses possessing an amorphous nature and high dielectric constants exhibit properties suitable for optoelectronic and electrochemical applications. Multi-component silica–calcium phosphate glasses doped with 0.5 and 1 mol% of trivalent praseodymium (Pr3+) were synthesized using the sol-gel method. The Pr3+-doped and undoped glasses were compared at room temperature (300 K) to analyze their electrical variations. Dielectric studies predicted an increase in the dielectric constant and conductivity in the doped samples when compared to the undoped glass. A high dielectric constant of 89.2 was observed in the optimally doped glass at 1 kHz. The value of the capacitance increases to the order of nanofarads as the concentration of Pr3+ increases, indicating enhanced storage in the material. The AC conductivity of the highly doped sample evidenced a high value of 2.9 × 10−5 S/cm at 10 MHz. The Cole–Cole plot of the glasses demonstrated a single flattened semicircle due to the lack of grains. The equivalent circuitry constitutes a constant-phase element (CPE) in series with the parallel circuit of a resistor and CPE. This behavior is indicative of the suitability of the glasses as cathodes. The increase in capacitance with doping in the low-frequency region suggests the use of the glasses as dielectric energy-storage materials in condensers.

Published

2023

18. Structural and Optical Analysis of the Role of Modifier Oxides in Multi-Component Silicate Glasses for Laser Applications

Author

Gracie. P. Jeyakumar, Yasmin Jamil, and Geetha Deivasigamani

Subjects

multi-component glasses, modifier oxides, Tauc’s plots, photoluminescence, lasers, Engineering machinery, tools, and implements, TA213-215

Abstract

Multi-component silica calcium phosphate glasses doped with modifiers of alkaline and transition metal oxides of Mg2+, Fe3+, and Bi3+ were synthesized using the sol-gel method. The glasses were analyzed for structural behavior via XRD analysis. While alkaline metal-doped glasses were purely amorphous, the transition metal oxides induced fractional crystallinity in the material, with bismuth evidencing a high glass–ceramic attribute. FT-IR analysis confirmed the presence of silicate and phosphate linkages in the glass material via the vibration modes around 790 cm−1 and 450 cm−1, respectively. The peaks also represented the bridging and non-bridging oxygens of the glass formers. The UV-visible absorption spectra of the alkaline metal-infused glasses demonstrated the absence of sharp absorption peaks, while the transition metal-doped glasses evidenced prominent UV absorption. Tauc’s plots of the absorption spectra were employed to predict the band gap energies. While the Fe3+-doped glass exhibited the lowest band gap energy of 2.6 eV approaching a semiconducting nature, the remaining glasses exhibited an insulating behavior with a value of around 4 eV. The high UV absorption and lower bandgap indicate the suitability of the iron-doped glass for photovoltaic devices. Green and red emissions from all the glasses were observed using photoluminescence analysis. While the emission indicates the nature of the glass host, the intensity of its luminescence was altered by the influence of modifiers. Multi-component silicate glasses underscore the efficiency of the modifiers that could be suitably tailored for influencing the laser activity.

Published

2023

19. Influence of extracellular protein isolated from fish gut associated bacteria as an enhancer of growth and innate immune system in Mugil cephalus

Author

Rajasekar Thirunavukkarasu, Priyadarshin Pandi, Deivasigamani Balaraman, Fadwa Albalawi, Naushad Ahmad, Mani Panagal, Tentu Nageswara Rao, Kumaran Subramanian, Edward Gnana Jothi George, MaryShamya Arockia Rajan, Pugazhvendan Sampath Renuga, Wilson Aruni, and Suliman Yousef AlOmar

Subjects

Medicine, Science

Abstract

Abstract The cultural microbiomes of 27 bacteria colonies were isolated from Mugil cephalus for analysis of the antibacterial and antagonistic activities. A potent probiotic bacterium was characterized using16S r RNA sequencing. The potent strain was added to fish diet to perform the challenge test and to study the growth and immunological parameter. The extracellular proteins from the probiotic were collected and characterized using MALDI TOF/TOF. Out of G27, G9 strain inhibited all the five pathogenic strains. An isolated bacterium was identified as Bacillus subtilis PRBD09 with accession number KF765648. After 35 days of feeding period B. subtilis PRBD09 enhance the both cellular and humoral immune responses, which responsible for survive of the Mugil cephalus against Aeromonas hydrophila infection. The MALDI TOF sample 08 and 09 were recognized as hypothetical proteins based on the MALDI TOF sample. A cytidinedeaminase was found in samples 10, 11, and 12. Extracellular proteins may be involved for the immunological increase in Mugil cephalus against Aeromonas hydrophila, according to the current research.

Published

2022

20. A Review on Cassava Residues as Adsorbents for Removal of Organic and Inorganic Contaminants in Water and Wastewater

Author

Vasu Gajendiran, Prabu Deivasigamani, Selvaraju Sivamani, and Ponnurengam Malliappan Sivakumar

Subjects

Chemistry, QD1-999

Abstract

An increase in water demand for drinking, agriculture, and industries necessitates the treatment of water and wastewater. Among various conventional treatment techniques available, adsorption is found to be one of the most economical and feasible methods. Adsorbents from plant biomass are effective for the removal of organic and inorganic pollutants. Cassava has gained attention among researchers during the past decades due to its plentiful availability and resilient characteristics. Even though cassava contains cyanogenic glucosides as toxins, it is used in industries for development of various products. Cassava stem, rhizome, peel, and bagasse are industrial residues that are generated in abundance. The present review focusses on factors affecting adsorption using cassava residues, adsorbent preparation and activation methods, equilibrium, mass transfer, kinetics, and thermodynamic studies of adsorption.

Published

2023

21. Epigenetic derepression converts PPARγ into a druggable target in triple-negative and endocrine-resistant breast cancers

Author

Ser Yue Loo, Nicholas L. Syn, Angele Pei-Fern Koh, Janet Cheng-Fei Teng, Amudha Deivasigamani, Tuan Zea Tan, Aye Aye Thike, Shireen Vali, Shweta Kapoor, Xiaoyuan Wang, Jiong Wei Wang, Puay Hoon Tan, George W. Yip, Gautam Sethi, Ruby Yun-Ju Huang, Kam Man Hui, Lingzhi Wang, Boon Cher Goh, and Alan Prem Kumar

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671

Abstract

Abstract Clinical trials repurposing peroxisome proliferator-activated receptor-gamma (PPARγ) agonists as anticancer agents have exhibited lackluster efficacy across a variety of tumor types. Here, we report that increased PPARG expression is associated with a better prognosis but is anticorrelated with histone deacetylase (HDAC) 1 and 2 expressions. We show that HDAC overexpression blunts anti-proliferative and anti-angiogenic responses to PPARγ agonists via transcriptional and post-translational mechanisms, however, these can be neutralized with clinically approved and experimental HDAC inhibitors. Supporting this notion, concomitant treatment with HDAC inhibitors was required to license the tumor-suppressive effects of PPARγ agonists in triple-negative and endocrine-refractory breast cancer cells, and combination therapy also restrained angiogenesis in a tube formation assay. This combination was also synergistic in estrogen receptor-alpha (ERα)–positive cells because HDAC blockade abrogated ERα interference with PPARγ-regulated transcription. Following a pharmacokinetics optimization study, the combination of rosiglitazone and a potent pan-HDAC inhibitor, LBH589, stalled disease progression in a mouse model of triple-negative breast cancer greater than either of the monotherapies, while exhibiting a favorable safety profile. Our findings account for historical observations of de-novo resistance to PPARγ agonist monotherapy and propound a therapeutically cogent intervention against two aggressive breast cancer subtypes.

Published

2021

22. A case of Y tubular duplication of the sigmoid colon in a pediatric patient

Author

Pavai Arunachalam, Rhea Mahendran, and Aniruthan P Deivasigamani

Subjects

Pediatrics, RJ1-570, Surgery, RD1-811

Published

2023

23. Investigation of Transition Metal Ions Cu2+ and Mg2+ Doped Zinc Aluminate (ZnAl2O4) and Their Structural, Spectral, Optical, and Dielectric Study for High-Frequency Applications

Author

Yasmin Jamil, Gracie P. Jeyakumar, and Geetha Deivasigamani

Subjects

sol-gel, band gap, dielectric constant, Chemical engineering, TP155-156

Abstract

Zinc Aluminate is an excellent dielectric material suitable for a variety of technological applications due to its high-quality factor, low dielectric loss, and appreciable conductivity. Here in this study, the preparation of Zn1−xMxAl2O4 (M = Cu2+, Mg2+: x = 0, 0.10) powders were carried out using the citrate-based combustion route. The structural, spectral, optical, stoichiometry composition, and dielectric performance of the synthesized nanoparticles were evaluated to explore the substitution effect of Cu2+ and Mg2+ ions. It was confirmed from XRD results that all the samples exhibited a monophase spinel structure. The estimated average crystallite size is calculated to be 23 nm. The functional group identification of the samples was monitored by FTIR spectroscopy. Scanning electron microscope (SEM) coupled with energy-dispersive X-ray spectroscopy analysis (EDAX) was utilized to confirm the composition of the samples. UV–Visible absorption spectroscopy demonstrated decrement in the band gap due to doping. Impedance spectroscopy displayed improved dielectric properties for the doped samples. The Cole–Cole plots enlightened the relaxation processes and provided information about the complex electrical behavior of the material. It was established that non-Debye relaxation was found to be prominent in the investigated aluminates. From the electrical parameters obtained, it displays the semiconducting nature of the zinc aluminate particles, and it can be utilized for high-frequency applications such as ceramic capacitors, resonators, and filters in high-frequency electronics. Overall, Zinc Aluminate is a versatile material with potential application in various fields of science and electronics.

Published

2023

24. Brusatol suppresses STAT3-driven metastasis by downregulating epithelial-mesenchymal transition in hepatocellular carcinoma

Author

Jong Hyun Lee, Chakrabhavi Dhananjaya Mohan, Amudha Deivasigamani, Young Yun Jung, Shobith Rangappa, Salundi Basappa, Arunachalam Chinnathambi, Tahani Awad Alahmadi, Sulaiman Ali Alharbi, Manoj Garg, Zhi-Xiu Lin, Kanchugarakoppal S. Rangappa, Gautam Sethi, Kam Man Hui, and Kwang Seok Ahn

Subjects

EMT, Brusatol, HCC, Orthotopic mouse model, Metastasis, Medicine (General), R5-920, Science (General), Q1-390

Abstract

Introduction: Epithelial-mesenchymal transition (EMT) is a process of transdifferentiation where epithelial cells attain mesenchymal phenotype to gain invasive properties and thus, can contribute to metastasis of tumor cells. Objectives: The antimetastatic and antitumor efficacy of brusatol (BT) was investigated in a hepatocellular carcinoma (HCC) model. Methods: We evaluated the action of BT on EMT process using various biological assays in HCC cell lines and its effect on tumorigenesis in an orthotopic mouse model. Results: We found that BT treatment restored the expression of Occludin, E-cadherin (epithelial markers) while suppressing the levels of different mesenchymal markers in HCC cells and tumor tissues. Moreover, we observed a decline in the expression of transcription factors (Snail, Twist). Since the expression of these two factors can be regulated by STAT3 signaling, we deciphered the influence of BT on modulation of this pathway. BT suppressed the phosphorylation of STAT3Y705 and STAT3 depletion using siRNA resulted in the restoration of epithelial markers. Importantly, BT (1mg/kg) reduced the tumor burden in orthotopic mouse model with a concurrent decline in lung metastasis. Conclusions: Overall, our results demonstrate that BT interferes with STAT3 induced metastasis by altering the expression of EMT-related proteins in HCC model.

Published

2020

25. Preparation of an Intelligent pH Film Based on Biodegradable Polymers for Monitoring the Food Quality and Reducing the Microbial Contaminants

Author

Kumaran Subramanian, Deivasigamani Balaraman, Kumaravel Kaliyaperumal, V. Devi Rajeswari, K. Balakrishnan, P. Ronald Ross, Elumalai Perumal, Pugazhvendan Sampath Renuga, Mani Panangal, Y. Swarnalatha, and S. Velmurugan

Subjects

Biotechnology, TP248.13-248.65, Inorganic chemistry, QD146-197

Abstract

Hydrogel refers to a three-dimensional cross-linked polymeric network made of synthetic or natural polymers that can hold water in its porous structure. The inclusion of hydrophilic groups in the polymer chains, such as amino, carboxyl, and hydroxyl groups, contributes to the hydrogel’s water-holding ability. At physiological temperature and pH, these polymeric materials do not dissolve in water, but they do swell significantly in aqueous media. Hydrogel can be manufactured out of almost any water-soluble polymer, and it comes in a variety of chemical compositions and bulk physical properties. Hydrogel can also be made in a variety of ways. Hydrogel comes in a variety of physical shapes, including slabs, microparticles, nanoparticles, coatings, and films. Due to its ease of manufacture and self-application in clinical and fundamental applications, hydrogel has been widely exploited as a drug carrier. Contact lenses, artificial corneas, wound dressing, suture coating, catheters, and electrode sensors are some of the biomedical applications of hydrogels. The pigment color changes were observed from colorless to pale pink followed by dark reddish-pink. Anthocyanin was produced in large quantities and tested using a UV-visible spectrophotometer. At 450–550 nm, the largest peak (absorbance) was detected, indicating the presence of anthocyanin. The FTIR analysis of this study shows the different stretches of bonds at different peaks: 2918.309 (-C-H alkane stretch), 2812.12 (-C-H aldehyde weak intensity), 192320.37/cm (C-O bend), 21915.50, 2029.08/cm (-C=C arene group), 1906.94/cm (=C-H aromatics), 1797.78/cm (=C-H), 1707.94 (-C=O ketene), 1579.70, 1382.96 (C-H alkane strong bend), 889.18/cm (C-H aromatics plane bend), and 412.77/cm (-C-CI strong bond). The spectra of the PVA/chitosan film depict the peak’s formation: 1571.88, 1529.55, 1500.62/cm (C-H alkene strong bend), 1492.90, 1483.26, 1467.83/cm (C-H alkene strong bond), 670.48, 443.63, 412.77/cm (-O-H carboxylic acids with great intensity), 1708.93 (-C=O ketone), and 1656.0/cm (alkenyl C=C stretch strong bond).

Published

2022

26. Discriminative fluorescent sensing of nitro-antibiotics at ppb level using N-phenyl-amino-1,8-naphthalimides chemosensors

Author

Ananthu Shanmughan, Pandi Raja Lakshmi, Deivasigamani Umadevi, and Sankarasekaran Shanmugaraju

Subjects

Amino-1,8-Naphtalimides, Fluorescence, Solvatochromism, Chemosensors, Antibiotics, Nitrofurantoin, Chemistry, QD1-999

Abstract

The design of suitable fluorescent chemosensors for the trace detection of emerging organic pollutants attracted great research interest because of their serious menace to the environment and health hazards. Herein, we report two 1,8-naphthalimide-based fluorescent chemosensors, N-phenyl-4-amino-1,8-naphthalimide (Nap-1) and N-phenyl-3-amino-1,8-naphthalimide (Nap-2), for the discriminative fluorescent sensing of nitro-containing antibiotics. Nap-1 and Nap-2 have been synthesized in two steps from their respective nitro-1,8-naphthalic anhydride precursors and they were fully characterized using standard spectroscopic techniques such as FT-IR, and NMR (1H, and 13C), and HRMS. Both Nap-1 and Nap-2 are highly emissive due to internal-charge transfer (ICT) transition and exhibited a positive solvatochromism in different solvent mediums. The fluorescence titration studies of Nap-1 and Nap-2 with various antibiotics showed high selectivity and strong binding affinity for nitro-containing antibiotics with a parts-per-billions (ppb) level of sensitivity. The initial fluorescence emission intensity of Nap-1 and Nap-2 was quenched upon the addition of nitro-antibiotics such as Nitrofurazone (NFZ) and Dimetridazole (DMZ). Notably, the co-existence of other competing antibiotics showed negligible to moderate fluorescence quenching. The observed discriminative fluorescence sensing was also reflected by sharp visual colour changes. The Stern-Volmer quenching constants (KSV) were calculated to be in the order of 104 M−1. These studies suggest that Nap-1 and Nap-2 can be used as potential “turn-off” fluorescent chemosensors for the selective, sensitive, and fast detection of nitro-antibiotics.

Published

2022

27. Development of Polydiphenylamine@Electrochemically Reduced Graphene Oxide Electrode for the D-Penicillamine Sensor from Human Blood Serum Samples Using Amperometry

Author

Deivasigamani Ranjith Kumar, Kuppusamy Rajesh, Mostafa Saad Sayed, Ahamed Milton, and Jae-Jin Shim

Subjects

polydiphenylamine, electrochemically reduced graphene oxide, D-penicillamine, electropolymerization, cyclic voltammetry, Organic chemistry, QD241-441

Abstract

D-penicillamine (PA) is a sulfur group-containing drug prescribed for various health issues, but overdoses have adverse effects. Therefore, regular, selective, and sensitive sensing is essential to reduce the need for further treatment. In this study, diphenylamine (DPA) was electropolymerized in an aqueous acidic medium. The PA detection sensitivity, selectivity, and limit of detection were enhanced by electropolymerizing DPA on an electrochemically reduced graphene oxide (ERGO)/glassy carbon (GC) surface. The formation of p-DPA and ERGO was investigated using various techniques. The as-prepared p-DPA@ERGO/GC revealed the excellent redox-active (N–C to N=C) sites of p-DPA. The p-DPA@ERGO/GC electrode exhibited excellent electrochemical sensing ability towards PA determination because of the presence of the –NH–functional moiety and effective interactions with the –SH group of PA. The p-DPA@ERGO/GC exhibited a high surface coverage of 9.23 × 10−12 mol cm−2. The polymer-modified p-DPA@ERGO/GC electrode revealed the amperometric determination of PA concentration from the 1.4 to 541 μM wide range and the detection limit of 0.10 μM. The real-time feasibility of the developed p-DPA@ERGO/GC electrode was tested with a realistic PA finding in human blood serum samples and yielded a good recovery of 97.5–101.0%, confirming the potential suitability in bio-clinical applications.

Published

2023

28. Poly(caffeic acid) Redox Couple Decorated on Electrochemically Reduced Graphene Oxide for Electrocatalytic Sensing Free Chlorine in Drinking Water

Author

Srinivasan Kesavan, Deivasigamani Ranjith Kumar, Ganesh Dhakal, Woo Kyoung Kim, Yong Rok Lee, and Jae-Jin Shim

Subjects

caffeic acid, poly(caffeic acid), electrocatalytic reaction, free chlorine, tap water, drinking water, Chemistry, QD1-999

Abstract

Regular water quality measurements are essential to the public water supply. Moreover, selective free chlorine (disinfectant) level monitoring without an interfering agent is necessary. The present work aimed to fabricate poly(caffeic acid) (p-CFA) coated on an electrochemically reduced graphene oxide (ERGO) surface for the selective detection of free chlorine. Electron microscopy and various spectroscopic techniques confirmed the p-CFA@ERGO/glassy carbon (GC) electrode. The p-CFA@ERGO/GC coated probe surface coverage was calculated to be 4.75 × 10−11 mol cm−2. The p-CFA@ERGO/GC showed superior catechol/o-quinone oxidation/reduction peaks for electrocatalytic free chlorine determination. The performance of the developed sensor electrode was outstanding, with an extensive range of free chlorine detection (20 μM to 20 mM), high sensitivity (0.0361 µA µM−1), and low detection limit (0.03 µM). The p-CFA@ERGO/GC capability of the realist water samples, such as the tested commercial and tap water, yielded a good range of recovery (from 98.5% to 99.9%). These values align with the standard N,N′-diethyl-p-phenylenediamine reagent method results.

Published

2022

29. Solar-Powered Plant Protection Equipment: Perspective and Prospects

Author

Desikan Ramesh, Mohanrangan Chandrasekaran, Raga Palanisamy Soundararajan, Paravaikkarasu Pillai Subramanian, Vijayakumar Palled, and Deivasigamani Praveen Kumar

Subjects

plant protection, pest control, solar energy gadgets, solar insect trap, solar sprayer, solar fencing, Technology

Abstract

The major challenges in sustainable and profitable agriculture are developing high-yielding crop varieties and reducing crop losses. Presently, there are significant crop losses due to weed/bird/insect/animal attacks. Among the various renewable energy sources, solar energy is utilized for different agricultural operations, especially in plant protection applications. Solar photovoltaic (PV) devices present a positive approach to sustainable crop production by reducing crop loss in various ways. This might result in the extensive use of PV devices in the near future. PV-based plant protection equipment/devices are primarily utilized in protecting crops from birds, weeds, or insects. Solar-powered plant protection equipment such as light traps, bird scarers, sprayers, weeders, and fencing are gaining interest due to their lower operational costs, simple design, no fuel requirements, and zero carbon emissions. Most of these PV devices require 12 V rechargeable batteries with different currents to meet the load, which varies from 2 to 1500 W. This paper briefly discusses the applications of solar-powered plant protection devices in sustainable agriculture and their future prospects.

Published

2022

30. Quasiparticle GW Calculations on Lead-Free Hybrid Germanium Iodide Perovskite CH3NH3GeI3 for Photovoltaic Applications

Author

Deivasigamani Umadevi and Graeme W. Watson

Subjects

Chemistry, QD1-999

Published

2019

31. Diagnosis of Bearing Outer Race Faults Using a Low-Cost Non-Contact Method with Advanced Wavelet Transforms

Author

Madhusudhana Reddy Barusu, Umamaheswari Sethurajan, and Meganathan Deivasigamani

Subjects

fault diagnosis, induction motor, phase locked loop algorithm, radar signal processing, rational dilation wavelet transform (rdwt)., Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

This study analyses the vibration of Squirrel Cage Induction Motor (SCIM) with bearing faults using high-frequency signal (Handheld UWB radar) and Software Phase Locked Loop algorithm (SPLL). The contact or non-contact methods perform condition monitoring of the SCIM. The proposed method is a non-contact technique to perform condition monitoring of the SCIM. The contact methods execute via vibration, instantaneous frequency, rotor speed and flux signals analysis; whereas non-contact methods accomplish via acoustic, current and stray flux measurement. The existing techniques suffer from the influence of adjoining electrical machines; require human expertise to mount sensors and analysing the signals. In this paper, a new, non-contact method proposed for bearing fault identification in the SCIM. The proposed method uses a high-frequency signal projected on the motor and the reflected signal captured. The signal obtained is analysed with an advanced signal processing algorithm like Rational Dilation Wavelet Transform (RDWT) to identify the faults in the SCIM. The signal energy at the fault frequency level increases from 4.72 % to 5.82 % with the increase in the number of the faults. The signal energy variation indicates the severity of the faults. From the experimental results, the bearing fault of the motor identified in the beginning stage of the fault. DOI: 10.5755/j01.eie.25.1.22735

Published

2019

32. Protein Albumin Manipulation and Electrical Quantification of Molecular Dielectrophoresis Responses for Biomedical Applications

Author

Nur Shahira Abdul Nasir, Revathy Deivasigamani, M. F. Mohd Razip Wee, Azrul Azlan Hamzah, Mohd Hazani Mat Zaid, Muhammad Khairulanwar Abdul Rahim, Aminuddin Ahmad Kayani, Abdullah Abdulhameed, and Muhamad Ramdzan Buyong

Subjects

dielectrophoresis, electrical quantification, protein, manipulation, Mechanical engineering and machinery, TJ1-1570

Abstract

Research relating to dielectrophoresis (DEP) has been progressing rapidly through time as it is a strong and controllable technique for manipulation, separation, preconcentration, and partitioning of protein. Extensive studies have been carried out on protein DEP, especially on Bovine Serum Albumin (BSA). However, these studies involve the usage of dye and fluorescent probes to observe DEP responses as the physical properties of protein albumin molecular structure are translucent. The use of dye and the fluorescent probe could later affect the protein’s physiology. In this article, we review three methods of electrical quantification of DEP responses: electrochemical impedance spectroscopy (EIS), cyclic voltammetry (CV) and capacitance measurement for protein BSA DEP manipulation. The correlation of these methods with DEP responses is further discussed. Based on the observations on capacitance measurement, it can be deduced that the electrical quantifying method is reliable for identifying DEP responses. Further, the possibility of manipulating the protein and electrically quantifying DEP responses while retaining the original physiology of the protein and without the usage of dye or fluorescent probe is discussed.

Published

2022

33. Fresh and Hardened Properties of Self-Compacting Concrete Comprising a Copper Slag

Author

Chidambaram Prithiviraj, Packirisamy Swaminathan, Deivasigamani Ramesh Kumar, Gunasekaran Murali, and Nikolai Ivanovich Vatin

Subjects

concrete, copper slag, compressive strength, acid attack, microstructure, Building construction, TH1-9745

Abstract

Recycling trash and protecting natural resources are two of the many benefits of using copper slag as a fine aggregate in a concrete building. However, stakeholders need proven research output to build trust and initiate or enhance the use of such industrial waste in buildings. This study evaluated self-compacting concrete’s fresh and hardened characteristics (SCC) comprising a copper slag aggregate (CSA). For this purpose, six mixes were prepared by substituting river sand with CSA up to 50%, with a 10% increment. The properties of fresh SCC were evaluated using slump flow, V-funnel, and L-box tests. Several parameters of SCC were examined, including water absorption, sorptivity, chloride ion penetration, sulphate attack, and acid attack tests. Energy dispersive spectroscopy (EDS) and scanning electron microscopy (SEM) were used to investigate the concrete microstructure. The results indicated that the fresh characteristics of SCC were enhanced as the amount of CSA increased consistently. The durability properties showed a considerable enhancement in SCC mixes comprising up to 20% of CSA.

Published

2022

34. Author Correction: Influence of extracellular protein isolated from fish gut associated bacteria as an enhancer of growth and innate immune system in Mugil cephalus

Author

Rajasekar Thirunavukkarasu, Priyadarshin Pandi, Deivasigamani Balaraman, Fadwa Albalawi, Naushad Ahmad, Mani Panagal, Tentu Nageswara Rao, Kumaran Subramanian, Edward Gnana Jothi George, MaryShamya Arockia Rajan, Pugazhvendan Sampath Renuga, Wilson Aruni, and Suliman Yousef AlOmar

Subjects

Medicine, Science

Published

2022

35. Flexural Behaviour of Chicken Mesh Ferrocement Laminates with Partial Replacement of Fine Aggregate by Steel Slag

Author

Sridhar Jayaprakash, Jegatheeswaran Dhanapal, Vivek Deivasigamani, and Elias G

Subjects

Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Bending tests were conducted on ferrocement laminates containing chicken mesh and steel slag. The fundamental goal of the examination was to investigate the effects of partial substitution of fine aggregate by steel slag in cement mortar combining chicken mesh of different volume fractions as reinforcement in thin ferrocement laminates. The following variables were investigated: (a) volume fraction of chicken mesh as 0.94%, 1.88%, 2.82%, and 3.77% and (b) level of steel slag substitution from 0% to 50% by weight fine aggregate. Results show that ferrocement laminates with chicken mesh of volume fractions of 3.77% and 30% substitution of fine aggregate with steel slag display better performance in terms of load deflection behaviour, first crack load, ultimate load, energy absorption, and ductility ratio when related with other specimens. An analytical model has been proposed to predict the ultimate moment carrying capacity of ferrocement laminates under flexure to validate the experimental results.

Published

2021

36. Author Correction: Influence of extracellular protein isolated from fish gut associated bacteria as an enhancer of growth and innate immune system in Mugil cephalus

Author

Rajasekar Thirunavukkarasu, Priyadarshin Pandi, Deivasigamani Balaraman, Fadwa Albalawi, Naushad Ahmad, Mani Panagal, Tentu Nageswara Rao, Kumaran Subramanian, Edward Gnana Jothi George, MaryShamya Arockia Rajan, Pugazhvendan Sampath Renuga, Wilson Aruni, and Suliman Yousef AlOmar

Subjects

Medicine, Science

Published

2022

37. Zaleya decandra exerts anti-cancer activity in HCT-116 cancer cells by impairing mitochondrial activity

Author

Malarvizhi Deivasigamani, Ajay Kasivishwanathan Chandrasekar, Sridhar Muthusami, Gopalakrishnan Velliyur Kanniappan, and Hariprasath Lakshmanan

Subjects

Apoptosis, Caspases, Colon cancer cell, MTT, ROS, Zaleya decandra, Therapeutics. Pharmacology, RM1-950

Abstract

An attempt has been made to investigate the role of Zaleya decandra on the survival of HCT colon cancer cells in vitro. The cell viability and apoptosis were assessed using MTT assay and acridine orange/ethidium bromide staining, respectively. Mitrochondrial membrane permeability was assessed using rhodamine-123 staining. The activities of caspases were evaluated using ELISA kits. Treatment with Z. decandra extract increased the production of ROS in HCT cells and impaired the mitochondrial activity as evidenced by decreased reduction of tetrazolium salt and enhanced mitochondrial membrane permeability. The onset of apoptosis was evident in cells treated with the extact in acridine orange/ethidium bromide staining and was associated with elevated levels of initiator and effector caspases in the conditioned medium. In conclusion, Z. decandra treatment promoted the apoptosis of HCT colon cancer cells. Video Clip of Methodology: 6 min 53 sec: Full Screen Alternate

Published

2019

38. 3-Formylchromone Counteracts STAT3 Signaling Pathway by Elevating SHP-2 Expression in Hepatocellular Carcinoma

Author

Chakrabhavi Dhananjaya Mohan, Min Hee Yang, Shobith Rangappa, Arunachalam Chinnathambi, Sulaiman Ali Alharbi, Tahani Awad Alahmadi, Amudha Deivasigamani, Kam Man Hui, Gautam Sethi, Kanchugarakoppal S. Rangappa, and Kwang Seok Ahn

Subjects

formylchromone, STAT3 signaling, hepatocellular carcinoma, SHP-2, apoptosis, Biology (General), QH301-705.5

Abstract

Hepatocellular carcinoma (HCC) is one of the leading cancers that contribute to a large number of deaths throughout the globe. The signal transducer and activator of transcription 3 (STAT3) is a tumorigenic protein that is overactivated in several human malignancies including HCC. In the present report, the effect of 3-formylchromone (3FC) on the STAT3 signaling pathway in the HCC model was investigated. 3FC downregulated the constitutive phosphorylation of STAT3 and non-receptor tyrosine kinases such as JAK1 and JAK2. It also suppressed the transportation of STAT3 to the nucleus and reduced its DNA-binding ability. Pervanadate treatment overrode the 3FC-triggered STAT3 inhibition, and the profiling of cellular phosphatase expression revealed an increase in SHP-2 levels upon 3FC treatment. The siRNA-driven deletion of SHP-2 led to reinstate STAT3 activation. 3FC downmodulated the levels of various oncogenic proteins and decreased CXCL12-driven cell migration and invasion. Interestingly, 3FC did not exhibit any substantial toxicity, whereas it significantly regressed tumor growth in an orthotopic HCC mouse model and abrogated lung metastasis. Overall, 3FC can function as a potent agent that can display antitumor activity by targeting STAT3 signaling in HCC models.

Published

2021

39. Integration of a Dielectrophoretic Tapered Aluminum Microelectrode Array with a Flow Focusing Technique

Author

Naqib Fuad Abd Rashid, Revathy Deivasigamani, M. F. Mohd Razip Wee, Azrul Azlan Hamzah, and Muhamad Ramdzan Buyong

Subjects

tapered aluminum microelectrode array, dielectrophoresis force, hydrodynamic flow focusing, microfluidics, Chemical technology, TP1-1185

Abstract

We present the integration of a flow focusing microfluidic device in a dielectrophoretic application that based on a tapered aluminum microelectrode array (TAMA). The characterization and optimization method of microfluidic geometry performs the hydrodynamic flow focusing on the channel. The sample fluids are hydrodynamically focused into the region of interest (ROI) where the dielectrophoresis force (FDEP) is dominant. The device geometry is designed using 3D CAD software and fabricated using the micro-milling process combined with soft lithography using PDMS. The flow simulation is achieved using COMSOL Multiphysics 5.5 to study the effect of the flow rate ratio between the sample fluids (Q1) and the sheath fluids (Q2) toward the width of flow focusing. Five different flow rate ratios (Q1/Q2) are recorded in this experiment, which are 0.2, 0.4, 0.6, 0.8 and 1.0. The width of flow focusing is increased linearly with the flow rate ratio (Q1/Q2) for both the simulation and the experiment. At the highest flow rate ratio (Q1/Q2 = 1), the width of flow focusing is obtained at 638.66 µm and at the lowest flow rate ratio (Q1/Q2 = 0.2), the width of flow focusing is obtained at 226.03 µm. As a result, the flow focusing effect is able to reduce the dispersion of the particles in the microelectrode from 2000 µm to 226.03 µm toward the ROI. The significance of flow focusing on the separation of particles is studied using 10 and 1 µm polystyrene beads by applying a non-uniform electrical field to the TAMA at 10 VPP, 150 kHz. Ultimately, we are able to manipulate the trajectories of two different types of particles in the channel. For further validation, the focusing of 3.2 µm polystyrene beads within the dominant FDEP results in an enhanced manipulation efficiency from 20% to 80% in the ROI.

Published

2021

40. Monensin Sensitive 1 Regulates Dendritic Arborization in Drosophila by Modulating Endocytic Flux

Author

Rohit Krishnan Harish, Shweta Tendulkar, Senthilkumar Deivasigamani, Anuradha Ratnaparkhi, and Girish S. Ratnaparkhi

Subjects

flux, endocytic recycling, Rab conversion, epistasis, Class IV neuron, Biology (General), QH301-705.5

Abstract

Monensin Sensitive 1 (Mon1) is a component of the Mon1:Ccz1 complex that mediates Rab5 to Rab7 conversion in eukaryotic cells by serving as a guanine nucleotide exchange factor for Rab7 during vesicular trafficking. We find that Mon1 activity modulates the complexity of Class IV dendritic arborization (da) neurons during larval development. Loss of Mon1 function leads to an increase in arborization and complexity, while increased expression, leads to reduced arborization. The ability of Mon1 to influence dendritic development is possibly a function of its interactions with Rab family GTPases that are central players in vesicular trafficking. Earlier, these GTPases, specifically Rab1, Rab5, Rab10, and Rab11 have been shown to regulate dendritic arborization. We have conducted genetic epistasis experiments, by modulating the activity of Rab5, Rab7, and Rab11 in da neurons, in Mon1 mutants, and demonstrate that the ability of Mon1 to regulate arborization is possibly due to its effect on the recycling pathway. Dendritic branching is critical for proper connectivity and physiological function of the neuron. An understanding of regulatory elements, such as Mon1, as demonstrated in our study, is essential to understand neuronal function.

Published

2019

41. Non-invasive method for rotor bar fault diagnosis in three-phase squirrel cage induction motor with advanced signal processing technique

Author

Madhusudhana Reddy Barusu, Umamaheswari Sethurajan, and Meganathan Deivasigamani

Subjects

infrared imaging, condition monitoring, signal processing, squirrel cage motors, phase locked loops, fault diagnosis, wavelet transforms, induction motors, fast Fourier transforms, vibration measurement, rotors, temperature measurement, noninvasive method, rotor bar fault diagnosis, three-phase squirrel cage, advanced signal processing technique, squirrel cage induction motors, contact methods, noncontact method, zero sequence current spectrum measurement, nonuniform time resampling, motor current spectrum analysis, stray flux measurement, acoustic emission measurement, flux signal analysis, acoustic temperature, current temperature, stray-flux measurement, rotor bar fault identification, Engineering (General). Civil engineering (General), TA1-2040

Abstract

The condition monitoring of the rotor bar in the squirrel cage induction motors (SCIMs) is performed with various contact methods and non-contact methods. The various contact methods are zero sequence current spectrum measurement, non-uniform time resampling of current, motor current spectrum analysis, vibration measurement, etc. Non-contact methods are infrared thermography, stray flux measurement, acoustic emission measurement, temperature measurement, etc. The contact methods execute via vibration, instantaneous frequency, rotor speed and flux signal analysis. Whereas, non-contact method accomplishes via acoustic, current, temperature and stray flux measurement. The existing methods suffer from the influence of adjoining machines, surrounding environmental changes; require human expertise to mount sensors and analysing the signals. In this paper, a novel low-cost and non-invasive method proposed for rotor bar fault identification in SCIMs with Software Phase Locked Loop (SPLL). The proposed method uses a high-frequency signal projected on the motor and the reflected signal captured. The captured signal analysed by Fast Fourier Transform (FFT) and Wavelet transforms to identify the fault. The performance of these transforms compared in term of accuracy to identify the rotor bar faults of SCIM. The experimental results show that the proposed method achieves better accuracy than the existing methods..

Published

2019

42. SOD1 activity threshold and TOR signalling modulate VAP(P58S) aggregation via reactive oxygen species-induced proteasomal degradation in a Drosophila model of amyotrophic lateral sclerosis

Author

Kriti Chaplot, Lokesh Pimpale, Balaji Ramalingam, Senthilkumar Deivasigamani, Siddhesh S. Kamat, and Girish S. Ratnaparkhi

Subjects

ALS, Autophagy, UPS, Aggregate, Rapamycin, MG132, Medicine, Pathology, RB1-214

Abstract

Familial amyotrophic lateral sclerosis (ALS) is an incurable, late-onset motor neuron disease, linked strongly to various causative genetic loci. ALS8 codes for a missense mutation, P56S, in VAMP-associated protein B (VAPB) that causes the protein to misfold and form cellular aggregates. Uncovering genes and mechanisms that affect aggregation dynamics would greatly help increase our understanding of the disease and lead to potential therapeutics. We developed a quantitative high-throughput Drosophila S2R+ cell-based kinetic assay coupled with fluorescent microscopy to score for genes involved in the modulation of aggregates of the fly orthologue, VAP(P58S), fused with GFP. A targeted RNA interference screen against 900 genes identified 150 hits that modify aggregation, including the ALS loci Sod1 and TDP43 (also known as TBPH), as well as genes belonging to the mTOR pathway. Further, a system to measure the extent of VAP(P58S) aggregation in the Drosophila larval brain was developed in order to validate the hits from the cell-based screen. In the larval brain, we find that reduction of SOD1 levels or decreased mTOR signalling reduces aggregation, presumably by increasing the levels of cellular reactive oxygen species (ROS). The mechanism of aggregate clearance is, primarily, proteasomal degradation, which appears to be triggered by an increase in ROS. We have thus uncovered an interesting interplay between SOD1, ROS and mTOR signalling that regulates the dynamics of VAP aggregation. Mechanistic processes underlying such cellular regulatory networks will lead to better understanding of the initiation and progression of ALS. This article has an associated First Person interview with the first author of the paper.

Published

2019

43. Dielectrophoresis Prototypic Polystyrene Particle Synchronization toward Alive Keratinocyte Cells for Rapid Chronic Wound Healing

Author

Revathy Deivasigamani, Nur Nasyifa Mohd Maidin, M. F. Mohd Razip Wee, Mohd Ambri Mohamed, and Muhamad Ramdzan Buyong

Subjects

dielectrophoresis, fibroblast, keratinocyte, Clausius–Mossotti factor, electrical stimulation technique, Chemical technology, TP1-1185

Abstract

Diabetes patients are at risk of having chronic wounds, which would take months to years to resolve naturally. Chronic wounds can be countered using the electrical stimulation technique (EST) by dielectrophoresis (DEP), which is label-free, highly sensitive, and selective for particle trajectory. In this study, we focus on the validation of polystyrene particles of 3.2 and 4.8 μm to predict the behavior of keratinocytes to estimate their crossover frequency (fXO) using the DEP force (FDEP) for particle manipulation. MyDEP is a piece of java-based stand-alone software used to consider the dielectric particle response to AC electric fields and analyzes the electrical properties of biological cells. The prototypic 3.2 and 4.8 μm polystyrene particles have fXO values from MyDEP of 425.02 and 275.37 kHz, respectively. Fibroblast cells were also subjected to numerical analysis because the interaction of keratinocytes and fibroblast cells is essential for wound healing. Consequently, the predicted fXO from the MyDEP plot for keratinocyte and fibroblast cells are 510.53 and 28.10 MHz, respectively. The finite element method (FEM) is utilized to compute the electric field intensity and particle trajectory based on DEP and drag forces. Moreover, the particle trajectories are quantified in a high and low conductive medium. To justify the simulation, further DEP experiments are carried out by applying a non-uniform electric field to a mixture of different sizes of polystyrene particles and keratinocyte cells, and these results are well agreed. The alive keratinocyte cells exhibit NDEP force in a highly conductive medium from 100 kHz to 25 MHz. 2D/3D motion analysis software (DIPP-MotionV) can also perform image analysis of keratinocyte cells and evaluate the average speed, acceleration, and trajectory position. The resultant NDEP force can align the keratinocyte cells in the wound site upon suitable applied frequency. Thus, MyDEP estimates the Clausius–Mossotti factors (CMF), FEM computes the cell trajectory, and the experimental results of prototypic polystyrene particles are well correlated and provide an optimistic response towards keratinocyte cells for rapid wound healing applications.

Published

2021

44. Crystal structure of 5′′-benzylidene-1′-methyl-4′-phenyltrispiro[acenaphthylene-1,2′-pyrrolidine-3′,1′′-cyclohexane-3′′,2′′′-[1,3]dioxane]-2,6′′-dione

Author

Kuppan Chandralekha, Deivasigamani Gavaskar, Adukamparai Rajukrishnan Sureshbabu, and Srinivasakannan Lakshmi

Subjects

crystal structure, trispiropyrrolidines, acenaphthylene, spirocyclohexanones, dioxalane, Crystallography, QD901-999

Abstract

In the title compound, C36H31NO4, two spiro links connect the methyl-substituted pyrrolidine ring to the acenaphthylene and cyclohexanone rings. The cyclohexanone ring is further connected to the dioxalane ring by a third spiro junction. The five-membered ring of the acenaphthylen-1-one ring system adopts a flattened envelope conformation with the ketonic C atom as flap, whereas the dioxalane and pyrrolidine rings each have a twist conformation. The cyclohexanone ring assumes a boat conformation. Three intramolecular C—H...O hydrogen bonds involving both ketonic O atoms as acceptors are present. In the crystal, C—H...O hydrogen bonds connect centrosymmetrically related molecule into chains parallel to the b axis, forming rings of R22(10)and R22(8) graph-set motifs.

Published

2016

45. N-Substituted Pyrido-1,4-Oxazin-3-Ones Induce Apoptosis of Hepatocellular Carcinoma Cells by Targeting NF-κB Signaling Pathway

Author

Chakrabhavi Dhananjaya Mohan, Hanumantharayappa Bharathkumar, Dukanya, Shobith Rangappa, Muthu K. Shanmugam, Arunachalam Chinnathambi, Sulaiman Ali Alharbi, Tahani Awad Alahmadi, Atanu Bhattacharjee, Peter E. Lobie, Amudha Deivasigamani, Kam Man Hui, Gautam Sethi, Basappa, Kanchugarakoppal S. Rangappa, and Alan Prem Kumar

Subjects

oxazines, anticancer, NF-κB, hepatocellular carcinoma, apoptosis, Therapeutics. Pharmacology, RM1-950

Abstract

Hepatocellular carcinoma (HCC) is a fatal disease and ranked fifth in cancer related mortality. Persistent activation of NF-κB is responsible for the oncogenesis, metastasis, tumor evasion, anti-apoptosis, angiogenesis and proliferation in HCC. Therefore, designing of chemically novel, biologically potent small molecules that target NF-κB signaling cascade have gained prominent clinical interest. Herein we synthesized a novel class of 4-(substituted)-2H-pyrido[3,2-b][1,4]oxazin-3(4H)-one by reacting 2H-pyrido[3,2-b][1,4]oxazin-3(4H)-one with various alkyl halides by using combustion derived bismuth oxide. We evaluated the antiproliferative efficacy of newly synthesized compounds against HCC cells and identified 4-(4-nitrobenzyl)-2H-pyrido[3,2-b][1,4]oxazin-3(4H)-one (NPO) as lead anticancer agent. In addition, we investigated the effect of NPO on the DNA binding ability of NF-κB and NF-κB regulated luciferase expression in HCC cells. The results demonstrated that NPO can induce significant growth inhibitory effects in HepG2, HCCLM3 and Huh-7 cells in dose and time-dependent manner. Interestingly, NPO induced significant downregulation in p65 DNA binding ability, p65 phosphorylation and subsequent expression of NF-κB dependent luciferase gene expression in diverse HCC cell lines. Further, in silico docking analysis suggested that NPO can show direct physical interaction with NF-κB. Finally, NPO was found to significantly abrogate tumor growth at a dose of 50 mg/kg in an orthotopic mouse model. Thus, we report the potential anticancer effects of NPO as a novel inhibitor of NF-κB signaling pathway in HCC.

Published

2018

46. Crystal structure of methyl 3′-benzamido-4′-(4-methoxyphenyl)-1′-methylspiro[indeno[1,2-b]quinoxaline-11,2′-pyrrolidine]-3′-carboxylate

Author

Kuppan Chandralekha, Adukamparai Rajukrishnan Sureshbabu, Deivasigamani Gavaskar, and Srinivasakannan Lakshmi

Subjects

crystal structure, indenoquinoxaline, pyrrolidine, spiro pyrrolizidine, N—H...N interaction, Crystallography, QD901-999

Abstract

In the title compound, C35H30N4O3, the spiro C atom connects the five-membered pyrrolidine ring and the indenoquinoxaline ring system. The pyrrolidine ring adopts a twist conformation. An intramolecular N—H...N interaction between the amino group and the pyrazine ring is observed. In the crystal, molecules are linked by a pairs of C—H...O hydrogen bonds, forming inversion dimers.

Published

2016

47. 5′-Benzylidene-1′′-methyl-4′′-phenyltrispiro[1,3-dioxolane-2,1′-cyclohexane-3′,3′′-pyrrolidine-2′′,3′′′-indole]-4′,2′′′-dione

Author

Kuppan Chandralekha, Deivasigamani Gavaskar, Adukamparai Rajukrishnan Sureshbabu, and Srinivasakannan Lakshmi

Subjects

crystal structure, trispiropyrrolidine, spirooxindole, dioxalane, Crystallography, QD901-999

Abstract

In the title compound, C32H30N2O4, two spiro links connect the methyl-substituted pyrrolidine ring to the oxindole and cyclohexanone rings. The cyclohexanone ring is further connected to the dioxalane ring by a third spiro junction. Both the pyrrolidine and dioxalane rings adopt a twist conformation. The indole ring is nearly planar, with a maximum deviation of 0.0296 (7) Å, and the cyclohexanone ring adopts a distorted boat conformation. In the crystal, C—H...O and N—H...N hydrogen-bonding interactions connect molecules into chains running parallel to the b axis, which are further linked into layers parallel to the ab plane by C—H...O hydrogen bonds.

Published

2017

48. A genetic screen identifies Tor as an interactor of VAPB in a Drosophila model of amyotrophic lateral sclerosis

Author

Senthilkumar Deivasigamani, Hemant Kumar Verma, Ryu Ueda, Anuradha Ratnaparkhi, and Girish S. Ratnaparkhi

Subjects

VAP, Neurodegeneration, TOR, ALS, Drosophila RNAi screen, Science, Biology (General), QH301-705.5

Abstract

Amyotrophic Lateral Sclerosis (ALS) is a progressive neurodegenerative disorder characterized by selective death of motor neurons. In 5–10% of the familial cases, the disease is inherited because of mutations. One such mutation, P56S, was identified in human VAPB that behaves in a dominant negative manner, sequestering wild type protein into cytoplasmic inclusions. We have conducted a reverse genetic screen to identify interactors of Drosophila VAPB. We screened 2635 genes and identified 103 interactors, of which 45 were enhancers and 58 were suppressors of VAPB function. Interestingly, the screen identified known ALS loci – TBPH, alsin2 and SOD1. Also identified were genes involved in cellular energetics and homeostasis which were used to build a gene regulatory network of VAPB modifiers. One key modifier identified was Tor, whose knockdown reversed the large bouton phenotype associated with VAP(P58S) expression in neurons. A similar reversal was seen by over-expressing Tuberous Sclerosis Complex (Tsc1,2) that negatively regulates TOR signaling as also by reduction of S6K activity. In comparison, the small bouton phenotype associated with VAP(wt) expression was reversed with Tsc1 knock down as well as S6K-CA expression. Tor therefore interacts with both VAP(wt) and VAP(P58S), but in a contrasting manner. Reversal of VAP(P58S) bouton phenotypes in larvae fed with the TOR inhibitor Rapamycin suggests upregulation of TOR signaling in response to VAP(P58S) expression. The VAPB network and further mechanistic understanding of interactions with key pathways, such as the TOR cassette, will pave the way for a better understanding of the mechanisms of onset and progression of motor neuron disease.

Published

2014

49. Crystal structure of 1-ferrocenyl-2-(4-methylbenzoyl)spiro[11H-pyrrolidizine-3,11′-indeno[1,2-b]quinoxaline]

Author

Kuppan Chandralekha, Deivasigamani Gavaskar, Adukamparai Rajukrishnan Sureshbabu, and Srinivasakannan Lakshmi

Subjects

crystal structure, ferrocenyl, pyrrolidizine, quinoxaline, hydrogen bonds, Crystallography, QD901-999

Abstract

In the title compound, [Fe(C5H5)(C34H28N3O)], the four-fused-rings system of the 11H-indeno[1,2-b]quinoxaline unit is approximately planar [maximum deviation = 0.167 (4) Å] and forms a dihedral angle of 37.25 (6)° with the plane of the benzene ring of the methylbenzoyl group. Both pyrrolidine rings adopt a twist conformation. An intramolecular C—H...O hydrogen bond is observed. In the crystal, molecules are linked by C—H...O hydrogen bonds and weak C—H...π interactions, forming double chains extending parallel to the c axis.

Published

2014

50. Analysis of Anti-JFET for 600V VDMOS and HCI Reliability

Author

Yang Shao-Ming, Sheu Gene, Lai Chiu-Chung, and Deivasigamani Ravi

Subjects

Engineering (General). Civil engineering (General), TA1-2040

Abstract

In VDMOS device the anti-JFET concentration has important role for determining the breakdown voltage and on-resistance of the device. Because higher N-drift doping concentration can provide the very best on-resistance of the device but also decrease breakdown voltage. It also has a proportional relationship with threshold voltage degradation. In this paper, we report the anti-JFET implantation energy influence effect electric potential distribution, the highest impact ionization shifted from the silicon surface to deeper. It will have less hot carrier impact, and we have found higher breakdown voltage. The anti-JEFT implantation is critical for on-resistance off-state breakdown voltage optimization, However the high field and high impact ionization near the gate region will cause severe hot carrier Injection problem. The general expectation of high voltage VDMOS transistor is to have higher breakdown voltage, less degradation due to hot carrier injection and better on-resistance.

Published

2018