scispace - formally typeset
Search or ask a question

Is Leishmania donovani intracellular? 

Proteome
Visceral leishmaniasis
Cutaneous leishmaniasis
Leishmania
Leishmania infantum

Answers from top 4 papers

More filters
Papers (4)Insight
Open accessJournal ArticleDOI
Surface antigens of Leishmania donovani promastigotes.
D A Lepay, N Nogueira, Zanvil A. Cohn 
01 May 1983-Journal of Experimental Medicine
100 Citations
The possibility that this major surface antigen is shared, with minor differences, not only by L. donovani strains but between Leishmania species in general is suggested.
Journal ArticleDOI
A proteomic approach to identify developmentally regulated proteins in Leishmania infantum.
Youssef El Fakhry, Marc Ouellette, Barbara Papadopoulou 
01 Aug 2002-Proteomics
111 Citations
These findings bring a new insight in our understanding of metabolic and energy requirements of the intracellular form of Leishmania.
Open accessJournal ArticleDOI
Molecular and serological detection of Leishmania spp. in horses from an endemic area for canine visceral leishmaniasis in southeastern Brazil
Julia Cristina Benassi, Graziella Ulbricht Benvenga, Helena Lage Ferreira, Rodrigo Martins Soares, Diogo Tiago da Silva, Vanessa Figueredo Pereira, Vera Letticie de Azevedo Ruiz, Trícia Maria Ferreira de Sousa Oliveira 
01 Jun 2018-Pesquisa Veterinaria Brasileira
13 Citations
Results indicate the presence of Leishmania spp.
Journal ArticleDOI
Schizodeme and zymodeme characterization of leishmania in the investigation of foci of visceral and cutaneous leishmaniasis
Ulisses Gazos Lopes, Hooman Momen, Gabriel Grimaldi, Mauro Célio de Almeida Marzochi, Raquel S. Pacheco, Carlos M. Morel 
01 Feb 1984-Journal of Parasitology
66 Citations
These results demonstrate the usefulness of an integrated biochemical approach in the identification of Leishmania.

Related Questions

Altered mitochondrial function in macrophage contribute to immunopathogenesis Visceral leishmaniasis. how?5 answersAltered mitochondrial function in macrophages plays a crucial role in the immunopathogenesis of Visceral leishmaniasis. Studies have shown that Leishmania parasites induce mitochondrial hyper-fission, depolarization, and oxidative stress in macrophages, leading to distinct immune outcomes. Additionally, Leishmania donovani promotes mitochondrial biogenesis in macrophages through the virulence glycolipid lipophosphoglycan, creating a metabolically adapted environment for parasite survival. This alteration in mitochondrial properties is associated with the establishment of a specialized intracellular niche favorable for Leishmania replication. The interplay between Leishmania-induced mitochondrial changes and the host immune response highlights the significance of mitochondrial function in shaping the immunopathogenesis of Visceral leishmaniasis.
What are intracellular virus ?4 answersIntracellular viruses are infectious units that rely on host cell machinery for their replication and survival. They infect living cells and replicate within them, using the cellular processes and resources to produce the components necessary for their own reproduction. Viruses are obligate intracellular parasites, meaning they can only multiply within cells and require internal membranous structures for various aspects of their life cycle. They do not possess their own protein synthesis machinery or energy-generating metabolic pathways, and instead re-route and modify cellular processes to optimize their reproduction. Understanding the interactions between viruses and the host cell cytoskeleton can provide insights into potential targets for drug therapies and vaccine development. Additionally, some viruses, such as vaccinia virus, have been shown to induce the formation of actin tails within host cells, similar to those used by pathogenic bacteria for cell-to-cell spread.
Is Borrelia burgdorferi obligate intracellular?4 answers
Is babesiosis intracellular?4 answers
Is influenza A intracellular parasite?4 answers
Why are intracellular protozoan parasites hard to treat?3 answers

See what other people are reading

Whats the information that gives the polysomal profile?
5 answers
What is the significance of proteomic analysis in the discovery of vaccine targets?
5 answers
Whats the information that gives the polysomal profile?
5 answers
Does the production of carbapenemase in P. Aeruginosa have a genetic basis?
5 answers
The production of carbapenemase in Pseudomonas aeruginosa indeed has a genetic basis. Various molecular classes of carbapenemases, including Ambler classes A, B, and D enzymes, are produced by P. aeruginosa through chromosomal, plasmid-encoded, integron- or transposon-mediated mechanisms. Studies have shown that exposure to sub-minimal inhibitory concentrations of meropenem leads to differential regulation of proteins associated with carbapenem resistance, such as β-lactamases, efflux pumps, and penicillin-binding proteins, indicating a genetic response to carbapenem exposure. Furthermore, the development of carbapenem resistance in P. aeruginosa involves the fixation of mutations in genes like oprD, mexD, and mexR, providing a genetic basis for resistance development. These findings collectively highlight the genetic underpinnings of carbapenemase production and resistance in P. aeruginosa.What is the biological activity of thiazoles?
5 answers
Thiazoles exhibit diverse biological activities, making them valuable in medicinal chemistry. They are known for their roles as antitumour, antimicrobial, anti-inflammatory, antiviral, and anticancer agents, among others. Thiazole derivatives have shown antioxidant, analgesic, antibacterial, antifungal, antimalarial, antiallergic, antihypertensive, anti-inflammatory, and antipsychotic properties. Additionally, thiazoles and their derivatives have demonstrated activities such as antimicrobial, antiretroviral, antifungal, anticancer, antidiabetic, anti-Alzheimer, antihypertensive, antioxidant, and hepatoprotective effects. Furthermore, thiazole compounds have exhibited leishmanicidal activity against Leishmania infantum, showing low toxicity to mammalian cells and potential for treating visceral leishmaniasis. These findings underscore the significance of thiazoles in various biological and medicinal applications.Island pets veterinary clinic with sms notification
4 answers
Island Pets Veterinary Clinic can benefit from implementing SMS notification systems for various purposes, such as appointment reminders and health promotional messages. Research shows that SMS notifications improve attendance rates in clinics, especially for patients who have missed appointments. Additionally, SMS technology has been successfully utilized in healthcare settings to facilitate the notification of positive cases of diseases like canine visceral leishmaniasis, aiding in the management of zoonotic diseases. SMS is a widely used communication method due to its effectiveness in reaching users promptly, with a high read rate within minutes. By incorporating SMS notifications into the clinic's operations, Island Pets Veterinary Clinic can enhance patient engagement, improve appointment adherence, and streamline communication with pet owners, ultimately leading to better healthcare outcomes for their animal patients.What surface markers are associated with monocytes?
4 answers
Surface markers associated with monocytes include CD14, CD16, CCR2, CD36, HLA-DR, CD11c, CD11b, CX3CR1, CD38, and CD49e. These markers are crucial for distinguishing between classical (CD14++ CD16−), intermediate (CD14++ CD16+), and nonclassical (CD14+ CD16++) monocyte subsets. Studies have shown that the expression levels of CD11b and CX3CR1 on monocytes can predict carotid artery thickness in HIV-positive individuals, indicating their potential as novel predictors of cardiovascular disease in this population. Additionally, advanced flow cytometry techniques have identified a wide array of surface markers that uniquely define each monocyte subset, offering insights into their immunophenotypic features under various conditions. These findings contribute to a better understanding of monocyte heterogeneity and their roles in immune responses and disease pathogenesis.Why does Cholesterol coating decreases nanoparticle aggregation?
4 answers
Cholesterol coating decreases nanoparticle aggregation due to its ability to modulate interactions with biological membranes. Cholesterol-modified nanoparticles exhibit reduced aggregation by promoting stable interactions with cell membranes, leading to enhanced cellular uptake and distribution. Additionally, cholesterol-modified peptides stabilize α-helix formation, promoting cell permeability and reducing in vivo instability, ultimately leading to decreased aggregation. Furthermore, cholesterol modifications on DNA nanostructures show sequence-dependent aggregation, with the number and position of cholesterol tags playing a crucial role in controlling aggregation. Overall, cholesterol coating enhances stability, cellular interactions, and membrane targeting, thereby reducing nanoparticle aggregation and improving their efficacy in various biomedical applications.What are the limitations of protease in sample prep of microbiomes?
4 answers
Protease limitations in microbiome sample preparation include challenges in metaproteomic analysis due to incomplete public metagenome databases, high biological variation impacting clinical study designs, and the need for longitudinal patient measurements for more accurate results. Additionally, the choice of sample processing protocols, such as differential centrifugation, can significantly impact the taxonomic and functional outcomes of metaproteomic studies on gut microbiota, affecting microbial diversity and the abundance of specific taxa and functional categories. Overcoming these limitations requires improvements in data analysis techniques, the development of comprehensive databases covering genes and expressed proteins from all gut microbial species, and careful selection of sample preparation methods to ensure accurate and reliable results in metaproteomic studies of microbiomes.Why phytopathogen diagnostics are important?
5 answers
Phytopathogen diagnostics are crucial due to the significant economic losses inflicted by soil-borne fungal species on agricultural and horticultural crops globally. The identification of disease-causing organisms is essential to prevent catastrophic events that destroy large areas of food crops, exacerbating food supply deficits. Accurate diagnosis is challenging due to the diverse profiles of fungal pathogens, including unculturable and non-sporulating types. Early detection of harmful pathogens like Phytophthora palmivora, which affects numerous tropical crops, is vital to prevent devastating diseases like bud rot in coconut and oil palm. Molecular diagnostic tools, including PCR and isothermal amplification methods, offer rapid, sensitive, and equipment-free detection of phytopathogens, enabling timely interventions to protect plants from viral, bacterial, and fungal diseases.How is protein digestion facilitated?
5 answers
Protein digestion can be facilitated through various methods such as enzyme immobilization, thermomechanical and enzyme-facilitated processing, treatment with transglutaminase and anionic polysaccharides, and microwave-assisted digestion. These approaches enhance the kinetics and extent of protein digestion by improving enzyme stability, reducing anti-nutritional factors, accelerating digestion speed, and increasing digestibility of proteins and amino acids. For instance, enzyme immobilization on nanofibers allows for rapid protein digestion, while thermomechanical and enzyme-facilitated processing increase in vitro digestion kinetics and in vivo digestibility of proteins and amino acids. Additionally, treatment with transglutaminase and anionic polysaccharides accelerates protein digestion, and microwave-assisted digestion significantly speeds up the process, enabling quick proteolysis. These methods collectively contribute to efficient and effective protein digestion processes.