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Your search keyword '"Mohd. Ahmar Rauf"' showing total 17 results
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2. Green synthesis of silver nanoparticles by Conocarpus Lancifolius plant extract and their antimicrobial and anticancer activities

Author

Gaffar Sarwar Zaman, Huda A. Qari, Mohd Ahmar Rauf, Irfan Ahmad, Mohammad Aslam, Mohd Saeed, Mohammad Oves, and Hana Sonbol

Subjects
biology, Chemistry, QH301-705.5, Conocarpus Lancifolius, Aspergillus flavus, Antimicrobial, biology.organism_classification, medicine.disease_cause, Antifungal, Silver nanoparticle, Green synthesis, Antibacterial, Anticancer agent, Staphylococcus aureus, medicine, Conocarpus lancifolius, Original Article, Food science, Silver nanoparticles, Biology (General), General Agricultural and Biological Sciences, Antibacterial activity, Bacteria, Antibacterial agent
Abstract

Due to drug addiction and the emergence of antibiotic resistance in pathogens, the disease load and medication intake have risen worldwide. The alternative treatment for drug-resistant infections is Nano formulation-based antimicrobial agents. The plant extract of Conocarpus Lancifolius fruits was used to synthesize silver nanoparticles in the current study, and it was further employed as an antimicrobial and anticancer agent. Nanoparticles have been characterized by UV–visible spectrometer revealed the notable peak of λmax = 410–442 nm, which confirms the reduction of silver ion to elemental silver nanoparticles, and the biological moieties in the synthesis were further confirmed by FTIR analysis. The stability and crystalline nature of materials were approved by XRD analysis and expected the size of the nanomaterials of 21 to 173 nm analyzed by a nanophox particle-size analyzer. In vitro, synthesized materials act as an antibacterial agent against Streptococcus pneumonia and Staphylococcus aureus. The inhibition zones of 18 and 24 mm have been estimated to be antibacterial activity against both bacteria. The potency of up to 100% of AgNPs for bacterial strains was incubated overnight at 60 μg/ml. Based on our results, biogenic AgNPs reveal significant activity against fungal pathogen Rhizopusus stolonifera and Aspergillus flavus that cause leading infectious diseases. Additionally, nanomaterials were biocompatible and demonstrated the potential anticancer activities against MDA MB-231 cells after 24-hour exposure.

Published
2022

3. The monkeypox diagnosis, treatments and prevention: A review

Author

Saadullah Khattak, Mohd Ahmar Rauf, Yasir Ali, Muhammad Tufail Yousaf, Zhihui Liu, Dong-Dong Wu, and Xin-Ying Ji

Subjects
Microbiology (medical), Infectious Diseases, Immunology, Microbiology
Abstract

The world is currently dealing with a second viral outbreak, monkeypox, which has the potential to become an epidemic after the COVID-19 pandemic. People who reside in or close to forest might be exposed indirectly or at a low level, resulting in subclinical disease. However, the disease has lately emerged in shipped African wild mice in the United States. Smallpox can cause similar signs and symptoms to monkeypox, such as malaise, fever, flu-like signs, headache, distinctive rash, and back pain. Because Smallpox has been eliminated, similar symptoms in a monkeypox endemic zone should be treated cautiously. Monkeypox is transmitted to humans primarily via interaction with diseased animals. Infection through inoculation via interaction with skin or scratches and mucosal lesions on the animals is conceivable significantly once the skin barrier is disrupted by scratches, bites, or other disturbances or trauma. Even though it is clinically unclear from other pox-like infections, laboratory diagnosis is essential. There is no approved treatment for human monkeypox virus infection, however, smallpox vaccination can defend counter to the disease. Human sensitivity to monkeypox virus infection has grown after mass vaccination was discontinued in the 1980s. Infection may be prevented by reducing interaction with sick patients or animals and reducing respiratory exposure among people who are infected.

Published
2023

4. Therapeutic Applications of Biogenic Silver Nanomaterial Synthesized from the Paper Flower of Bougainvillea glabra (Miami, Pink)

Author

Mohammad Oves, Mohd Ahmar Rauf, and Huda A. Qari

Subjects
biogenic, biocompatible, AgNPs, Bougainvillea glabra, antibacterial, anticancer, General Chemical Engineering, General Materials Science
Abstract

In this research, Bougainvillea glabra paper flower extract was used to quickly synthesize biogenic silver nanoparticles (BAgNPs) utilizing green chemistry. Using the flower extract as a biological reducing agent, silver nanoparticles were generated by the conversion of Ag+ cations to Ag0 ions. Data patterns obtained from physical techniques for characterizing BAgNPs, employing UV-visible, scattering electron microscope (SEM), transmission electron microscope (TEM), dynamic light scattering (DLS), X-ray diffraction (XRD), and Fourier-transform infrared spectroscopy (FTIR), suggested that the nanoparticles have a spherical to oval form with size ranging from 10 to 50 nm. Spectroscopy and microscopic analysis were used to learn more about the antibacterial properties of the biologically produced BAgNPs from Bougainvillea glabra. Further, the potential mechanism of action of nanoparticles was investigated by studying their interactions in vitro with several bacterial strains and mammalian cancer cell systems. Finally, we can conclude that BAgNPs can be functionalized to dramatically inhibit bacterial growth and the growth of cancer cells in culture conditions, suggesting that biologically produced nanomaterials will provide new opportunities for a wide range of biomedical applications in the near future.

Published
2023
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5. The Transcriptomics of the Human Vein Transformation After Arteriovenous Fistula Anastomosis Uncovers Layer-Specific Remodeling and Hallmarks of Maturation Failure

Author

Laisel Martinez, Miguel G. Rojas, Marwan Tabbara, Simone Pereira-Simon, Nieves Santos Falcon, Mohd Ahmar Rauf, Akshara Challa, Zachary M. Zigmond, Anthony J. Griswold, Juan C. Duque, Roberta M. Lassance-Soares, Omaida C. Velazquez, Loay H. Salman, and Roberto I. Vazquez-Padron

Subjects
Nephrology, Clinical Research
Abstract

INTRODUCTION: The molecular transformation of the human preaccess vein after arteriovenous fistula (AVF) creation is poorly understood. This limits our ability to design efficacious therapies to improve maturation outcomes. METHODS: Bulk RNA sequencing (RNA-seq) followed by paired bioinformatic analyses and validation assays were performed in 76 longitudinal vascular biopsies (veins and AVFs) from 38 patients with stage 5 chronic kidney disease or end-stage kidney disease undergoing surgeries for 2-stage AVF creation (19 matured, 19 failed). RESULTS: A total of 3637 transcripts were differentially expressed between veins and AVFs independent of maturation outcomes, with 80% upregulated in fistulas. The postoperative transcriptome demonstrated transcriptional activation of basement membrane and interstitial extracellular matrix (ECM) components, including preexisting and novel collagens, proteoglycans, hemostasis factors, and angiogenesis regulators. A postoperative intramural cytokine storm involved >80 chemokines, interleukins, and growth factors. Postoperative changes in ECM expression were differentially distributed in the AVF wall, with proteoglycans and fibrillar collagens predominantly found in the intima and media, respectively. Interestingly, upregulated matrisome genes were enough to make a crude separation of AVFs that failed from those with successful maturation. We identified 102 differentially expressed genes (DEGs) in association with AVF maturation failure, including upregulation of network collagen VIII in medial smooth muscle cells (SMCs) and downregulation of endothelial-predominant transcripts and ECM regulators. CONCLUSION: This work delineates the molecular changes that characterize venous remodeling after AVF creation and those relevant to maturation failure. We provide an essential framework to streamline translational models and our search for antistenotic therapies.

Published
2023

6. List of contributors

Author

Rohana Adnan, Rameez Ahmad Aftab, Shaikh Ziauddin Ahammad, Hilal Ahmad, Mohd Ashraf Alam, Syed Wazed Ali, Marai Almari, Mohammad Azam Ansari, Mohammad Omaish Ansari, Abdul Hakeem Anwer, Mohd Arshad, Abdullah M. Asiri, Mohd Ayaz, Ogechukwu Bose Chukwuma, Farha Fatima, Sufia ul Haque, Uzma Haseen, Bahaa A. Hemdan, Fahad Mabood Husain, Iqbal M.I. Ismail, Mohd Jameel, Kiran Jeet, Mangala Joshi, Sakshi Kapoor, Mohammad Zain Khan, Mohamad Nasir Mohamad Ibrahim, Mohammad Nazim, Mohammad Oves, Tabassum Parveen, Aftab Aslam Parwaz Khan, Huda A. Qari, Mohammad Amir Qureshi, Mohd Rafatullah, Rani Rahat, Mohd Ahmar Rauf, Asif Saud, Mohammad Shahadat, Muhammad Taqi-uddeen bin Safian, Shuchita Tomar, Khalid Umar, Mohammad Faisal Umar, Sadiq Umar, null Waris, and Mohammad Zubair

Published
2023

8. Analysis of the Compositional Features and Codon Usage Pattern of Genes Involved in Human Autophagy

Author

Zarnain Jamil, Arif Uddin, Syed Sahajada Mahafujul Alam, Arijit Samanta, Nojood Altwaijry, Mohd Ahmar Rauf, Safdar Ali, Mohd Shahnawaz Khan, Muhammad Nadeem Asghar, and Mehboob Hoque

Subjects
autophagy-related (ATG) genes, codon usage bias, mutation pressure, minimum free energy (mFE), natural selection, Nucleotides, Autophagy, Humans, General Medicine, Selection, Genetic, Codon, Codon Usage
Abstract

Autophagy plays an intricate role in paradigmatic human pathologies such as cancer, and neurodegenerative, cardiovascular, and autoimmune disorders. Autophagy regulation is performed by a set of autophagy-related (ATG) genes, first recognized in yeast genome and subsequently identified in other species, including humans. Several other genes have been identified to be involved in the process of autophagy either directly or indirectly. Studying the codon usage bias (CUB) of genes is crucial for understanding their genome biology and molecular evolution. Here, we examined the usage pattern of nucleotide and synonymous codons and the influence of evolutionary forces in genes involved in human autophagy. The coding sequences (CDS) of the protein coding human autophagy genes were retrieved from the NCBI nucleotide database and analyzed using various web tools and software to understand their nucleotide composition and codon usage pattern. The effective number of codons (ENC) in all genes involved in human autophagy ranges between 33.26 and 54.6 with a mean value of 45.05, indicating an overall low CUB. The nucleotide composition analysis of the autophagy genes revealed that the genes were marginally rich in GC content that significantly influenced the codon usage pattern. The relative synonymous codon usage (RSCU) revealed 3 over-represented and 10 under-represented codons. Both natural selection and mutational pressure were the key forces influencing the codon usage pattern of the genes involved in human autophagy.

Published
2022

9. Synergistic Role of Plant Extracts and Essential Oils against Multidrug Resistance and Gram-Negative Bacterial Strains Producing Extended-Spectrum β-Lactamases

Author

Manzar Alam, Nilofer Bano, Taufeeq Ahmad, Amit Baran Sharangi, Tarun Kumar Upadhyay, Yasser Alraey, Nadiyah M. Alabdallah, Mohd Ahmar Rauf, and Mohd Saeed

Subjects
Microbiology (medical), Infectious Diseases, Pharmacology (medical), General Pharmacology, Toxicology and Pharmaceutics, Biochemistry, Microbiology
Abstract

Plants, being the significant and natural source of medication for humankind against several ailments with characteristic substances hidden on them, have been recognized for many centuries. Accessibility of various methodologies for the revelation of therapeutically characteristic items has opened new avenues to redefine plants as the best reservoirs of new structural types. The role of plant metabolites to hinder the development and movement of pathogenic microbes is cherished. Production of extended-spectrum β-lactamases is an amazing tolerance mechanism that hinders the antibacterial treatment of infections caused by Gram-negative bacteria and is a serious problem for the current antimicrobial compounds. The exploration of the invention from sources of plant metabolites gives sustenance against the concern of the development of resistant pathogens. Essential oils are volatile, natural, complex compounds described by a solid odor and are framed by aromatic plants as secondary metabolites. The bioactive properties of essential oils are commonly controlled by the characteristic compounds present in them. They have been commonly utilized for bactericidal, virucidal, fungicidal, antiparasitic, insecticidal, medicinal, and antioxidant applications. Alkaloids are plant secondary metabolites that have appeared to have strong pharmacological properties. The impact of alkaloids from Callistemon citrinus and Vernonia adoensis leaves on bacterial development and efflux pump activity was assessed on Pseudomonas aeruginosa. Plant-derived chemicals may have direct antibacterial activity and/or indirect antibacterial activity as antibiotic resistance modifying agents, increasing the efficiency of antibiotics when used in combination. The thorough screening of plant-derived bioactive chemicals as resistance-modifying agents, including those that can act synergistically with antibiotics, is a viable method to overcome bacterial resistance. The synergistic assessment studies with the plant extract/essential oil and the antibiotic compounds is essential with a target for achieving a redesigned model with sustainable effects which are appreciably noticeable in specific sites of the plants compared to the entirety of their individual parts.

Published
2022

10. Nanomedicine approaches to reduce cytokine storms in severe infections

Author

Mohd Ahmar Rauf, Maryam Nisar, Hosam Abdelhady, Navnath Gavande, and Arun K. Iyer

Subjects
Pharmacology, Drug Discovery
Abstract

During a cytokine storm, dysregulated proinflammatory cytokines are produced in excess. Cytokine storms occur in multiple infectious diseases, including Coronavirus 2019 (COVID-19). Thus, eliminating cytokine storms to enhance patient outcomes is crucial. Given the numerous cytokines involved, individual therapies might have little effect. Traditional cytokines might be less effective than medicines that target malfunctioning macrophages. Nanomedicine-based therapeutics reduce cytokine production in animal models of proinflammatory illnesses. The unique physicochemical features and controlled nano-bio interactions of nanotechnology show promise in healthcare and could be used to treat several stages of this virus-induced sickness, including cytokine storm mortality. Macrophage-oriented nanomedicines can minimize cytokine storms and associated harmful effects, enhancing patient outcomes. Here, we also discuss engineering possibilities for enhancing macrophage efficacy with nanodrug carriers.

Published
2022

12. Role of Nanomedicine-Based Therapeutics in the Treatment of CNS Disorders

Author

Zi-Hua Guo, Saadullah Khattak, Mohd Ahmar Rauf, Mohammad Azam Ansari, Mohammad N. Alomary, Sufyan Razak, Chang-Yong Yang, Dong-Dong Wu, and Xin-Ying Ji

Subjects
Chemistry (miscellaneous), Organic Chemistry, Drug Discovery, Molecular Medicine, Pharmaceutical Science, Physical and Theoretical Chemistry, Analytical Chemistry
Abstract

Central nervous system disorders, especially neurodegenerative diseases, are a public health priority and demand a strong scientific response. Various therapy procedures have been used in the past, but their therapeutic value has been insufficient. The blood–brain barrier (BBB) and the blood–cerebrospinal fluid barrier is two of the barriers that protect the central nervous system (CNS), but are the main barriers to medicine delivery into the CNS for treating CNS disorders, such as brain tumors, Parkinson’s disease, Alzheimer’s disease, and Huntington’s disease. Nanotechnology-based medicinal approaches deliver valuable cargos targeting molecular and cellular processes with greater safety, efficacy, and specificity than traditional approaches. CNS diseases include a wide range of brain ailments connected to short- and long-term disability. They affect millions of people worldwide and are anticipated to become more common in the coming years. Nanotechnology-based brain therapy could solve the BBB problem. This review analyzes nanomedicine’s role in medication delivery; immunotherapy, chemotherapy, and gene therapy are combined with nanomedicines to treat CNS disorders. We also evaluated nanotechnology-based approaches for CNS disease amelioration, with the intention of stimulating the immune system by delivering medications across the BBB.

Published
2023

13. Investigating Chaperone like Activity of Green Silver Nanoparticles: Possible Implications in Drug Development

Author

Mohd Ahmar Rauf, Md Tauqir Alam, Mohd Ishtikhar, Nemat Ali, Adel Alghamdi, and Abdullah F. AlAsmari

Subjects
Silver, nanotechnology, Chaperonins, Pharmaceutical Science, Organic chemistry, Metal Nanoparticles, Green Chemistry Technology, B-AgNPs, human serum albumin (HSA), aggregates, circular dichroism (CD), thioflavin T (ThT), congo red (CR), Analytical Chemistry, QD241-441, Drug Development, Chemistry (miscellaneous), Drug Discovery, Molecular Medicine, Physical and Theoretical Chemistry
Abstract

Protein aggregation and amyloidogenesis have been associated with several neurodegenerative disorders like Alzheimer’s, Parkinson’s etc. Unfortunately, there are still no proper drugs and no effective treatment available. Due to the unique properties of noble metallic nanoparticles, they have been used in diverse fields of biomedicine like drug designing, drug delivery, tumour targeting, bio-sensing, tissue engineering etc. Small-sized silver nanoparticles have been reported to have anti-biotic, anti-cancer and anti-viral activities apart from their cytotoxic effects. The current study was carried out in a carefully designed in-vitro to observe the anti-amyloidogenic and inhibitory effects of biologically synthesized green silver nanoparticles (B-AgNPs) on human serum albumin (HSA) aggregation taken as a model protein. We have used different biophysical assays like thioflavin T (ThT), 8-Anilino-1-naphthalene-sulphonic acid (ANS), Far-UV CD etc. to analyze protein aggregation and aggregation inhibition in vitro. It has been observed that the synthesized fluorescent B-AgNPs showed inhibitory effects on protein aggregation in a concentration-dependent manner reaching a plateau, after which the effect of aggregation inhibition was significantly declined. We also observed meaningful chaperone-like aggregation-inhibition activities of as-synthesized florescent B-AgNPs in astrocytes.

Published
2021

14. Assessment of General Populations Knowledge, Attitude, and Perceptions Toward the Coronavirus Disease (COVID-19): A Cross-Sectional Study From Pakistan

Author

Saadullah Khattak, Maqbool Khan, Tahir Usman, Johar Ali, Dong-Xing Wu, Muhammad Jahangir, Kashif Haleem, Pir Muhammad, Mohd Ahmar Rauf, Kamran Saddique, Nazeer Hussain Khan, Tao Li, Dong-Dong Wu, and Xin-Ying Ji

Subjects
knowledge, perceptions, coronavirus disease 2019, Medicine (General), R5-920, attitude, Medicine, Pakistan, General Medicine, Original Research
Abstract

Background: Coronavirus disease 2019 (COVID-19) is a global health threat and caused a universal psychosocial impact on the general population. Therefore, the knowledge, attitude, and perceptions (KAPs) of the general population are critical for the development and effective implementation of standard operating procedures (SOP) to contain the contagion and minimize the losses. Therefore, the current study was conducted to understand and evaluate the KAPs of Pakistani populations toward the COVID-19.Methods: An online cross-sectional study was carried out among participants from 1 May to 30 July 2020 in different areas of Pakistan. The respondents of the study were the general population with age ≥ 18 years. The poll URL was posted on several channels after a call for participation. Other social media platforms such as WeChat, WhatsApp, Facebook, Twitter, Instagram, Messenger, and LinkedIn were engaged to maximize general population engagement. The questionnaire included details about sociodemographic, knowledge about COVID-19, perceptions toward universal safety precautions of COVID-19, and beliefs attitude toward the COVID-19. The obtained data were exported into a Microsoft Excel spreadsheet and SPSS software version 21 for windows. The descriptive statistics values were presented in frequencies and percentages. Binary logistic regression, Chi-square test, and one-way ANOVA were applied to analyze the participants' socio-demographic characteristics and variables related to KAPs. P-value < 0.05 was recorded as significant.Results: A total of 1,000 participants were invited of which 734 participated in this study. The response rate was 73.4% (734/1,000). The gender, marital status, education, and residence showed a significant association with the knowledge score. The majority of the study participants were thinking that COVID-19 may be more dangerous in elderly individuals 94.5% (n = 700), and individuals with chronic diseases or severe complications 96.7% (n = 710) (p = 0.00). More than half of the participants 52.5% (n = 385) showed their concern that either they or their family members might get the infection. More than 98% (n = 703), (P-value = 0.00) of the participants held that COVID-19 would be successfully controlled in Pakistan by following the standard SOPs and government guidelines.Conclusion: This study showed that the general population of Pakistan has good awareness and reasonable attitudes and perceptions toward the full features of the COVID-19. The current study suggests that mass-level effective health education programs are necessary for developing countries to improve and limit the gap between KAP toward COVID-19.

Published
2021

16. Hydrogen Sulfide Biology and Its Role in Cancer

Author

Saadullah Khattak, Mohd Ahmar Rauf, Nazeer Hussain Khan, Qian-Qian Zhang, Hao-Jie Chen, Pir Muhammad, Mohammad Azam Ansari, Mohammad N. Alomary, Muhammad Jahangir, Chun-Yang Zhang, Xin-Ying Ji, and Dong-Dong Wu

Subjects
Mammals, Organic Chemistry, Pharmaceutical Science, Analytical Chemistry, Chemistry (miscellaneous), Neoplasms, Drug Discovery, Animals, Molecular Medicine, Cysteine, Hydrogen Sulfide, Physical and Theoretical Chemistry, Biology, Signal Transduction
Abstract

Hydrogen sulfide (H2S) is an endogenous biologically active gas produced in mammalian tissues. It plays a very critical role in many pathophysiological processes in the body. It can be endogenously produced through many enzymes analogous to the cysteine family, while the exogenous source may involve inorganic sulfide salts. H2S has recently been well investigated with regard to the onset of various carcinogenic diseases such as lung, breast, ovaries, colon cancer, and neurodegenerative disorders. H2S is considered an oncogenic gas, and a potential therapeutic target for treating and diagnosing cancers, due to its role in mediating the development of tumorigenesis. Here in this review, an in-detail up-to-date explanation of the potential role of H2S in different malignancies has been reported. The study summarizes the synthesis of H2S, its roles, signaling routes, expressions, and H2S release in various malignancies. Considering the critical importance of this active biological molecule, we believe this review in this esteemed journal will highlight the oncogenic role of H2S in the scientific community.

Published
2022

17. Investigating Chaperone like Activity of Green Silver Nanoparticles: Possible Implications in Drug Development

Author

Mohd Ahmar Rauf, Md Tauqir Alam, Mohd Ishtikhar, Nemat Ali, Adel Alghamdi, and Abdullah F. AlAsmari

Subjects
human serum albumin (HSA), aggregates, nanotechnology, B-AgNPs, circular dichroism (CD), thioflavin T (ThT), Organic chemistry, QD241-441
Abstract

Protein aggregation and amyloidogenesis have been associated with several neurodegenerative disorders like Alzheimer’s, Parkinson’s etc. Unfortunately, there are still no proper drugs and no effective treatment available. Due to the unique properties of noble metallic nanoparticles, they have been used in diverse fields of biomedicine like drug designing, drug delivery, tumour targeting, bio-sensing, tissue engineering etc. Small-sized silver nanoparticles have been reported to have anti-biotic, anti-cancer and anti-viral activities apart from their cytotoxic effects. The current study was carried out in a carefully designed in-vitro to observe the anti-amyloidogenic and inhibitory effects of biologically synthesized green silver nanoparticles (B-AgNPs) on human serum albumin (HSA) aggregation taken as a model protein. We have used different biophysical assays like thioflavin T (ThT), 8-Anilino-1-naphthalene-sulphonic acid (ANS), Far-UV CD etc. to analyze protein aggregation and aggregation inhibition in vitro. It has been observed that the synthesized fluorescent B-AgNPs showed inhibitory effects on protein aggregation in a concentration-dependent manner reaching a plateau, after which the effect of aggregation inhibition was significantly declined. We also observed meaningful chaperone-like aggregation-inhibition activities of as-synthesized florescent B-AgNPs in astrocytes.

Published
2022
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