Your search keyword '"Suraj S. Patil"' showing total 16 results

1. La-Fe‑O Perovskite Based Gas Sensors: Recent Advances and Future Challenges

Author

Suraj S. Patil, Bapuso M. Babar, Digambar Y. Nadargi, Faiyyaj I. Shaikh, Jyoti D. Nadargi, Babasaheb R. Sankapal, Imtiaz S. Mulla, Mohaseen S. Tamboli, Nguyen Tam Nguyen Truong, and Sharad S. Suryavanshi

Subjects

Chemistry, QD1-999

Published

2024

2. Morphology, Palynology and Molecular Phylogeny of Barleria cristata L. (Acanthaceae) Morphotypes from India

Author

Asif S. Tamboli, Suraj S. Patil, Suhas K. Kadam, Yeon-Sik Choo, Manoj M. Lekhak, and Jae Hong Pak

Subjects

comparative morphology, ITS, ndhF-trnL(UAG), Philippine violet, pollen, taxonomy, Biology (General), QH301-705.5

Abstract

Barleria cristata L., commonly known as the Philippine violet, is native to South Asia. It is an ornamental plant and is also used for the treatment of a variety of diseases. In India, it is found throughout the country in many forms, varying in its floral attributes (calyx and corolla) and habitat. In order to understand the species limits in B. cristata, we studied morphological as well as palynological variation and assessed the phylogenetic relationships among five different morphotypes. The studied morphotypes (populations) came from three phytogeographical regions, namely the Western Ghats, the Deccan Peninsula and the Western Himalaya. The naturally occurring populations from the Deccan Peninsula and the Western Himalaya showed conspicuous differences in their morphology. All the morphotypes had oblate spheroidal, tri-brevicolporate and honey-combed pollen grains which differed only in their quantitative parameters. The distinct-looking morphotypes, namely, Nandi Hills, Uttarakhand and cultivated morphotypes, could not be separated based on pollen characters. Phylogenetic analyses based on chloroplast DNA sequences revealed that our samples formed a clade sister to the B. cristata specimen used in the previous study. The genetic variation within morphotypes was not enough for the genomic regions investigated; however, it revealed among morphotype genealogies in detail. Phylogenetic analyses showed that there were three monophyletic groups within the B. cristata complex that exhibited some morphological differences. Nevertheless, based on the present sampling, it is not possible to delimit these morphotypes at specific or infraspecific level. To reach such conclusions, further investigations like sampling this species across its distribution range in India and assessment of intraspecific relationships, and their cytogenetical characterization should be done.

Published

2022

3. Phytotoxic Effect of Elaeagnus Latifolia (L) on Growth and Metabolism of Synedrella Nodiflora (L)

Author

-, Suraj S. Patil., primary, -, Sujay D. Hodage., additional, -, Dilip N. Mohite., additional, -, Nitin K. Patil., additional, and -, Dr. T. G. Nagaraja., additional

Published

2023

4. Genus Barleria L. (Acanthaceae): a review of its taxonomy, cytogenetics, phytochemistry and pharmacological potential

Author

Manoj M Lekhak, Suraj S Patil, Pradip V Deshmukh, Utkarsha M Lekhak, Vijay Kumar, and Anshu Rastogi

Subjects

Pharmacology, Plant Extracts, Acanthaceae, Cytogenetic Analysis, Ethnopharmacology, Phytochemicals, Ethnobotany, Pharmaceutical Science, Phytotherapy

Abstract

Objectives Barleria, a large genus of the Acanthaceae family, comprises more than 300 species with diverse taxonomy, cytogenetics, phytochemistry and pharmacological potential. Therefore, the aim of this review is to critically assess the research on Barleria and provide guidance for future investigations. Methods The data were obtained from different sources, such as books, theses, journals and some of the websites and internet-based searches, published from 1901 to 2020. Data obtained from PubMed, Google Scholar, ScienceDirect, online electronic journals, SpringerLink, Wiley, etc. have also been used. Key findings The species of this genus exhibit considerable medicinal properties. Cytogenetical data are scantily available with chromosome counts available for only 24 species. The most common chromosome number is 2n = 2x = 40. So far, 187 compounds are reported from Barleria species. The active principles, their uses, toxicity and pharmacological effects are discussed. Essential oils, flavones, flavonoids, glycosides, terpenes and terpenoids form the major compounds. Summary It is highly recommended that the pharmacological and economic potential of Barleria species should be exploited and more detailed studies and attention be geared towards its utilization and conservation. In addition, to ensure maximum pharmacological benefits and sustainable use, it is necessary to have empirical information explaining its ethnobotanical values as well as commercial potential.

Published

2022

5. Iphigenia (Family Colchicaceae): A Genus That Needs Pharmacological Attention

Author

Manoj M. Lekhak, Suraj S. Patil, and Utkarsha M. Lekhak

Published

2023

6. Typification of some names in Indian Barleria L. (Acanthaceae)

Author

SURAJ S. PATIL, PRADIP V. DESHMUKH, and MANOJ M. LEKHAK

Subjects

Tracheophyta, Magnoliopsida, Acanthaceae, Plant Science, Biodiversity, Plantae, Ecology, Evolution, Behavior and Systematics, Taxonomy, Lamiales

Abstract

Nomenclatural investigation was carried out on eight binomials published in the genus Barleria L. (Acanthaceae). All the binomials were typified. Six of these names (B. cuspidata Heyne ex Nees, B. grandiflora Dalzell, B. lawii T.Anderson, B. nitida Nees, B. pilosa Heyne ex Nees and B. strigosa Willd. are currently accepted names. Of the remaining two, B. hirsuta Nees is a later homonym of B. hirsuta Jacq. and B. polytricha Wall., a synonym of B. strigosa Willd.

Published

2022

7. A new species of Barleria (Acanthaceae), its morphotaxonomy, cytogenetics and phylogenetic placement

Author

Shrirang R. Yadav, Manoj M. Lekhak, Suraj S. Patil, and Asif S. Tamboli

Subjects

0106 biological sciences, Phylogenetic tree, Stamen, Acanthaceae, Karyotype, Plant Science, Biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Calyx, Barleria, Evolutionary biology, Phylogenetics, Subgenus, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany

Abstract

A new species, Barleria lavaniana (Acanthaceae), is described and illustrated. It resembles B. longiflora but differs from it in the characters of calyx, stamen, style and stigma. Stem anatomy reveals that vessel elements are mostly angular with a short tail at one end and a long tail on the other end. Xylem rays are usually biseriate and xylem fibres relatively thin-walled. Interxylary phloem is generally characterized by a single companion cell. The somatic chromosome number was 2n = 2x = 40. The karyotype is moderately symmetrical and fell in Stebbins’ 3b category. Chromosomes have median and submedian region centromeres. Based on cpDNA data, the new species is placed in subgenus Barleria and shows phylogenetic affinity towards B. longiflora and B. acuminata. Our findings suggest the need for comprehensive phylogenetic analyses of the genus Barleria based on high-throughput sequencing data to understand species interrelationships and biogeography.

Published

2019

8. Ultrasound-Assisted Facile Synthesis of Nanostructured Hybrid Vesicle for the Nasal Delivery of Indomethacin: Response Surface Optimization, Microstructure, and Stability

Author

Sharad Wakode, Ravindra L. Bakal, Jagdish V. Manwar, Suraj S Patil, Rajesh G Jadhao, and Dipak D. Kumbhar

Subjects

Materials science, Surface Properties, Sonication, Dispersity, Indomethacin, Pharmaceutical Science, 02 engineering and technology, Aquatic Science, 030226 pharmacology & pharmacy, Permeability, 03 medical and health sciences, 0302 clinical medicine, Microscopy, Electron, Transmission, Drug Discovery, Lecithins, Spectroscopy, Fourier Transform Infrared, Zeta potential, Animals, Particle Size, Ecology, Evolution, Behavior and Systematics, Administration, Intranasal, Sheep, Ecology, Vesicle, Anti-Inflammatory Agents, Non-Steroidal, General Medicine, Permeation, 021001 nanoscience & nanotechnology, Nasal Mucosa, Chemical engineering, Transmission electron microscopy, Attenuated total reflection, Electrophoretic light scattering, 0210 nano-technology, Agronomy and Crop Science

Abstract

This work is devoted to design a novel nanostructured hybrid vesicle (NHV) made of lecithin and an acrylate/C10-C30 alkyl acrylate for the nasal delivery of a model active indomethacin (IND), and further to probe its microstructure, intermolecular interactions, drug release behavior, ex vivo permeation, and stability. NHVs were prepared by cavitation technology employing RSM-based central composite design (CCD). Amount of lecithin (X1), power of ultrasound (X2), and sonication time (X3) were selected as three independent variables while the studied response included Z-Avg (nm), polydispersity index (PDI), and zeta potential (mV). The designed system (NHV) was investigated through dynamic (DLS) and electrophoretic light scattering (ELS), attenuated total reflectance (ATR-FTIR), oscillatory measurement (stress and frequency sweep), and transmission electron microscopy (TEM). CCD was found useful in optimizing NHV. An optimized formulation (S6) had Z-Avg 80 nm, PDI 0.2, and zeta potential of − 43.26 mV. Morphology investigation revealed spherical vesicles with smaller TEM diameters (the largest particle being 52.26 nm). ATR analysis demonstrated significant intermolecular interactions among the drug (IND) and the components of vesicles. The designed vesicles had an elastic predominance and displayed supercase II (n > 1) type of drug release. Besides, the vesicles possessed potential to transport IND across the nasal mucosa with the steady-state flux (μg/cm2/h) and permeability coefficient (cm/h) of 26.61 and 13.30 × 10−3, respectively. NHV exhibited an exceptional stability involving a combination of electrostatic and steric interactions while the histopathology investigation confirmed their safety for nasal administration.

Published

2018

9. Enhanced security against internal attacks in MAODV routing protocol

Author

Sandeep A. Thorat and Suraj S. Patil

Subjects

Routing protocol, Protocol Independent Multicast, Multicast, business.industry, Network packet, Computer science, Distributed computing, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Mobile ad hoc network, Hop (networking), Ad hoc On-Demand Distance Vector Routing, Unicast, business, Computer network

Abstract

In MANET, mobile nodes communicate with each other with the help of intermediate nodes if they are not in direct transmission range. Nodes in MANET uses decentralized routing mechanism for communication. Lack of centralized mechanism and mobile nature of nodes increases security threats in MANET. For proper communication, all nodes are supposed to be cooperative with each other and malicious nodes can take advantage of this to implement its attack. Internal attacks in MANET are more severe as malicious nodes in these attacks are assumed as cooperative nodes. In these kind of attacks malicious node behave normal to become part of network and then launches its attacks. Unicast security approaches cannot be directly applied to complex multicast routing making these kind of attacks a challenging task for multicast routing protocols. In multicast routing protocols where one or more senders communicates with multiple receivers, internal attacks can do more damage as compared to unicast. To deal with this, authors proposed trust based security mechanism for multicast ad hoc on demand distance vector routing (TMOADV) in this paper. Instead of only hop count, TMAODV uses weighted combination of hop count and trust of nodes to select the shortest trustworthy path for data packet transmission in MAODV. The performance analysis of TMAODV, MAODV and PUMA (Protocol for Unified Multicasting through Announcements) protocols is done using NS2 simulation. TMAODV shown better packet delivery ratio with less effect on latency and control overhead in presence of internal attacks.

Published

2015

10. Coupling metabolomics and exome sequencing reveals graded effects of rare damaging heterozygous variants on gene function and human traits.

Author

Scherer N, Fässler D, Borisov O, Cheng Y, Schlosser P, Wuttke M, Haug S, Li Y, Telkämper F, Patil S, Meiselbach H, Wong C, Berger U, Sekula P, Hoppmann A, Schultheiss UT, Mozaffari S, Xi Y, Graham R, Schmidts M, Köttgen M, Oefner PJ, Knauf F, Eckardt KU, Grünert SC, Estrada K, Thiele I, Hertel J, and Köttgen A

Abstract

Genetic studies of the metabolome can uncover enzymatic and transport processes shaping human metabolism. Using rare variant aggregation testing based on whole-exome sequencing data to detect genes associated with levels of 1,294 plasma and 1,396 urine metabolites, we discovered 235 gene-metabolite associations, many previously unreported. Complementary approaches (genetic, computational (in silico gene knockouts in whole-body models of human metabolism) and one experimental proof of principle) provided orthogonal evidence that studies of rare, damaging variants in the heterozygous state permit inferences concordant with those from inborn errors of metabolism. Allelic series of functional variants in transporters responsible for transcellular sulfate reabsorption (SLC13A1, SLC26A1) exhibited graded effects on plasma sulfate and human height and pinpointed alleles associated with increased odds of diverse musculoskeletal traits and diseases in the population. This integrative approach can identify new players in incompletely characterized human metabolic reactions and reveal metabolic readouts informative of human traits and diseases., Competing Interests: Competing interests: C.W., S.M., Y.X., R.G. and K.E. are employees of and own shares in Maze Therapeutics. A.K. reports a sponsored research collaboration agreement with Maze Therapeutics. The other authors declare no competing interests., (© 2025. The Author(s).)

Published

2025

11. The membrane transporter SLC25A48 enables transport of choline into human mitochondria.

Author

Patil S, Borisov O, Scherer N, Wirth C, Schlosser P, Wuttke M, Ehret S, Hannibal L, Eckardt KU, Hunte C, Neubauer B, Köttgen A, and Köttgen M

Abstract

Choline has important physiological functions as a precursor for essential cell components, signaling molecules, phospholipids, and the neurotransmitter acetylcholine. Choline is a water-soluble charged molecule requiring transport proteins to cross biological membranes. Although transporters continue to be identified, membrane transport of choline is incompletely understood and knowledge about choline transport into intracellular organelles such as mitochondria remains limited. Here we show that SLC25A48 imports choline into human mitochondria. Human loss-of-function mutations in SLC25A48 show impaired choline transport into mitochondria and are associated with elevated urine and plasma choline levels. Thus, our studies may have implications for understanding and treating conditions related to choline metabolism., (Copyright © 2024 International Society of Nephrology. Published by Elsevier Inc. All rights reserved.)

Published

2024

12. MicroRNAs modulating nutrient homeostasis: a sustainable approach for developing biofortified crops.

Author

Jamla M, Joshi S, Patil S, Tripathi BN, and Kumar V

Subjects

Plant Breeding, Crops, Agricultural genetics, Crops, Agricultural metabolism, Micronutrients metabolism, Homeostasis, Biofortification, MicroRNAs genetics

Abstract

During their lifespan, sessile plants have to cope with bioavailability of the suboptimal nutrient concentration and have to constantly sense/evolve the connecting web of signal cascades for efficient nutrient uptake, storage, and translocation for proper growth and metabolism. However, environmental fluctuations and escalating anthropogenic activities are making it a formidable challenge for plants. This is adding to (micro)nutrient-deficient crops and nutritional insecurity. Biofortification is emerging as a sustainable and efficacious approach which can be utilized to combat the micronutrient malnutrition. A biofortified crop has an enriched level of desired nutrients developed using conventional breeding, agronomic practices, or advanced biotechnological tools. Nutrient homeostasis gets hampered under nutrient stress, which involves disturbance in short-distance and long-distance cell-cell/cell-organ communications involving multiple cellular and molecular components. Advanced sequencing platforms coupled with bioinformatics pipelines and databases have suggested the potential roles of tiny signaling molecules and post-transcriptional regulators, the microRNAs (miRNAs) in key plant phenomena including nutrient homeostasis. miRNAs are seen as emerging targets for biotechnology-based biofortification programs. Thus, understanding the mechanistic insights and regulatory role of miRNAs could open new windows for exploring them in developing nutrient-efficient biofortified crops. This review discusses significance and roles of miRNAs in plant nutrition and nutrient homeostasis and how they play key roles in plant responses to nutrient imbalances/deficiencies/toxicities covering major nutrients-nitrogen (N), phosphorus (P), sulfur (S), magnesium (Mg), iron (Fe), and zinc (Zn). A perspective view has been given on developing miRNA-engineered biofortified crops with recent success stories. Current challenges and future strategies have also been discussed., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Austria, part of Springer Nature.)

Published

2023

13. Exploring epitranscriptomics for crop improvement and environmental stress tolerance.

Author

Yang X, Patil S, Joshi S, Jamla M, and Kumar V

Subjects

Crops, Agricultural genetics, Crops, Agricultural metabolism, Epigenesis, Genetic, RNA metabolism, RNA Processing, Post-Transcriptional, Transcriptome genetics

Abstract

Climate change and stressful environmental conditions severely hamper crop growth, development and yield. Plants respond to environmental perturbations, through their plasticity provided by key-genes, governed at post-/transcriptional levels. Gene-regulation in plants is a multilevel process controlled by diverse cellular entities that includes transcription factors (TF), epigenetic regulators and non-coding RNAs beside others. There are successful studies confirming the role of epigenetic modifications (DNA-methylation/histone-modifications) in gene expression. Recent years have witnessed emergence of a highly specialized field the "Epitranscriptomics". Epitranscriptomics deals with investigating post-transcriptional RNA chemical-modifications present across the life forms that change structural, functional and biological characters of RNA. However, deeper insights on of epitranscriptomic modifications, with >140 types known so far, are to be understood fully. Researchers have identified epitranscriptome marks (writers, erasers and readers) and mapped the site-specific RNA modifications (m6A, m 5 C, 3' uridylation, etc.) responsible for fine-tuning gene expression in plants. Simultaneous advancement in sequencing platforms, upgraded bioinformatic tools and pipelines along with conventional labelled techniques have further given a statistical picture of these epitranscriptomic modifications leading to their potential applicability in crop improvement and developing climate-smart crops. We present herein the insights on epitranscriptomic machinery in plants and how epitranscriptome and epitranscriptomic modifications underlying plant growth, development and environmental stress responses/adaptations. Third-generation sequencing technology, advanced bioinformatics tools and databases being used in plant epitranscriptomics are also discussed. Emphasis is given on potential exploration of epitranscriptome engineering for crop-improvement and developing environmental stress tolerant plants covering current status, challenges and future directions., (Copyright © 2022 Elsevier Masson SAS. All rights reserved.)

Published

2022

14. MicroRNA-mediated bioengineering for climate-resilience in crops.

Author

Patil S, Joshi S, Jamla M, Zhou X, Taherzadeh MJ, Suprasanna P, and Kumar V

Subjects

Gene Editing, Machine Learning, MicroRNAs genetics, Bioengineering, Climate Change, Crops, Agricultural genetics, MicroRNAs metabolism

Abstract

Global projections on the climate change and the dynamic environmental perturbations indicate severe impacts on food security in general, and crop yield, vigor and the quality of produce in particular. Sessile plants respond to environmental challenges such as salt, drought, temperature, heavy metals at transcriptional and/or post-transcriptional levels through the stress-regulated network of pathways including transcription factors, proteins and the small non-coding endogenous RNAs. Amongs these, the miRNAs have gained unprecedented attention in recent years as key regulators for modulating gene expression in plants under stress. Hence, tailoring of miRNAs and their target pathways presents a promising strategy for developing multiple stress-tolerant crops. Plant stress tolerance has been successfully achieved through the over expression of microRNAs such as Os-miR408, Hv-miR82 for drought tolerance; OsmiR535A and artificial DST miRNA for salinity tolerance; and OsmiR535 and miR156 for combined drought and salt stress. Examples of miR408 overexpression also showed improved efficiency of irradiation utilization and carbon dioxide fixation in crop plants. Through this review, we present the current understanding about plant miRNAs, their roles in plant growth and stress-responses, the modern toolbox for identification, characterization and validation of miRNAs and their target genes including in silico tools, machine learning and artificial intelligence. Various approaches for up-regulation or knock-out of miRNAs have been discussed. The main emphasis has been given to the exploration of miRNAs for development of bioengineered climate-smart crops that can withstand changing climates and stressful environments, including combination of stresses, with very less or no yield penalties.

Published

2021

15. Nitric oxide, crosstalk with stress regulators and plant abiotic stress tolerance.

Author

Zhou X, Joshi S, Khare T, Patil S, Shang J, and Kumar V

Subjects

Biotechnology methods, MicroRNAs metabolism, Nitric Oxide analysis, Plant Growth Regulators metabolism, Plants, Genetically Modified, RNA, Plant metabolism, Nitric Oxide metabolism, Plant Physiological Phenomena, Stress, Physiological physiology

Abstract

Key Message: Nitric oxide is a dynamic gaseous molecule involved in signalling, crosstalk with stress regulators, and plant abiotic-stress responses. It has great exploratory potentials for engineering abiotic stress tolerance in crops. Nitric oxide (NO), a redox-active gaseous signalling molecule, though present uniformly through the eukaryotes, maintain its specificity in plants with respect to its formation, signalling, and functions. Its cellular concentrations are decisive for its function, as a signalling molecule at lower concentrations, but triggers nitro-oxidative stress and cellular damage when produced at higher concentrations. Besides, it also acts as a potent stress alleviator. Discovered in animals as neurotransmitter, NO has come a long way to being a stress radical and growth regulator in plants. As a key redox molecule, it exhibits several key cellular and molecular interactions including with reactive chemical species, hydrogen sulphide, and calcium. Apart from being a signalling molecule, it is emerging as a key player involved in regulations of plant growth, development and plant-environment interactions. It is involved in crosstalk with stress regulators and is thus pivotal in these stress regulatory mechanisms. NO is getting an unprecedented attention from research community, being investigated and explored for its multifaceted roles in plant abiotic stress tolerance. Through this review, we intend to present the current knowledge and updates on NO biosynthesis and signalling, crosstalk with stress regulators, and how biotechnological manipulations of NO pathway are leading towards developing transgenic crop plants that can withstand environmental stresses and climate change. The targets of various stress responsive miRNA signalling have also been discussed besides giving an account of current approaches used to characterise and detect the NO., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2021

16. Severe thrombocytopenia in tetralogy of Fallot patients: A contraindication for corrective surgery?

Author

Patil S, Relan J, Hote M, and Kothari SS

Abstract

A 3-year-old boy with tetralogy of Fallot and recurrent cyanotic spells was found to have severe thrombocytopenia with platelet counts in the range of 11-30,000/mm 3 . There was a hesitation to operate in view of the high bleeding risk due to profound thrombocytopenia. However, the total correction was done after excluding other causes of thrombocytopenia. His platelet count dramatically improved after the operation., Competing Interests: There are no conflicts of interest.

Published

2019