scholarly article | Q13442814 |
review article | Q7318358 |
P50 | author | Priscilla Masamba | Q92134632 |
Abiola Fatimah Adenowo | Q124655421 | ||
Babatunji Emmanuel Oyinloye | Q41660219 | ||
Abidemi Paul Kappo | Q41660223 | ||
P2860 | cites work | Neglected tropical diseases in sub-saharan Africa: review of their prevalence, distribution, and disease burden | Q21092296 |
Location of biomphalaria glabrata (say) by miracidia of schistosoma mansoni sambon in natural standing and running waters on the West Indian Island of St. Lucia | Q69573436 | ||
Do antioxidants play a role in schistosome host-parasite interactions? | Q79239796 | ||
Schistosoma mansoni: a method for inducing resistance to praziquantel using infected Biomphalaria glabrata snails | Q84019848 | ||
Structure-based assignment of the biochemical function of a hypothetical protein: a test case of structural genomics | Q24651065 | ||
Risk profiling of schistosomiasis using remote sensing: approaches, challenges and outlook | Q26823136 | ||
Structure of the universal stress protein of Haemophilus influenzae | Q27636655 | ||
Structure and function of the universal stress protein TeaD and its role in regulating the ectoine transporter TeaABC of Halomonas elongata DSM 2581(T) | Q27659290 | ||
Structural and functional insight into the universal stress protein family | Q27678522 | ||
Structural and functional analysis of two universal stress proteins YdaA and YnaF from Salmonella typhimurium: possible roles in microbial stress tolerance | Q27697589 | ||
Mycobacterium tuberculosis universal stress protein Rv2623 regulates bacillary growth by ATP-Binding: requirement for establishing chronic persistent infection | Q28475519 | ||
Reduced susceptibility to praziquantel among naturally occurring Kenyan isolates of Schistosoma mansoni | Q28475935 | ||
Praziquantel treatment decreases Schistosoma mansoni genetic diversity in experimental infections | Q28537753 | ||
Schistosomiasis and water resources development: systematic review, meta-analysis, and estimates of people at risk | Q29547716 | ||
Human schistosomiasis | Q29619142 | ||
Independent origins of loss-of-function mutations conferring oxamniquine resistance in a Brazilian schistosome population | Q30772877 | ||
Praziquantel-induced tegumental damage in vitro is diminished in schistosomes derived from praziquantel-resistant infections. | Q31989906 | ||
Parasites and poverty: the case of schistosomiasis | Q33615662 | ||
The effect of increasing water temperatures on Schistosoma mansoni transmission and Biomphalaria pfeifferi population dynamics: an agent-based modelling study | Q33838423 | ||
Towards an understanding of the mechanism of action of praziquantel | Q33914691 | ||
Hepatic schistosomiasis. | Q34033201 | ||
Time to set the agenda for schistosomiasis elimination | Q34266980 | ||
Human schistosomiasis | Q34413522 | ||
The global status of schistosomiasis and its control | Q34510931 | ||
The immunobiology of schistosomiasis | Q34718128 | ||
Immunology of human schistosomiasis | Q34782228 | ||
Hepatic and intestinal schistosomiasis: review | Q34951691 | ||
Resistance of Schistosoma mansoni to praziquantel: is there a problem? | Q35021630 | ||
The bacterial universal stress protein: function and regulation | Q35121914 | ||
Developmental Regulation of Genes Encoding Universal Stress Proteins in Schistosoma mansoni | Q35440533 | ||
Insights into the functional biology of schistosomes | Q35505219 | ||
Modulation of the host's immune response by schistosome larvae. | Q35684760 | ||
Gene expression patterns during adaptation of a helminth parasite to different environmental niches. | Q35850353 | ||
Are Ca2+ channels targets of praziquantel action? | Q35993816 | ||
Crystal structure of the protein At3g01520, a eukaryotic universal stress protein-like protein from Arabidopsis thaliana in complex with AMP. | Q36220331 | ||
SpUSP, an annexin-interacting universal stress protein, enhances drought tolerance in tomato | Q36239674 | ||
Schistosomiasis--a century searching for chemotherapeutic drugs. | Q36459174 | ||
Transmission control for schistosomiasis - why it matters now. | Q36618424 | ||
Inferences on the biochemical and environmental regulation of universal stress proteins from Schistosomiasis parasites | Q36851347 | ||
Chemotherapy of schistosomiasis: present and future | Q36891317 | ||
Microarray based analysis of temperature and oxidative stress induced messenger RNA in Schistosoma mansoni | Q36990847 | ||
Praziquantel: mechanisms of action, resistance and new derivatives for schistosomiasis | Q37315241 | ||
Enzymatic antioxidant systems in helminth parasites | Q37492384 | ||
Acute schistosomiasis mansoni: revisited and reconsidered | Q37780967 | ||
From innovation to application: Social–ecological context, diagnostics, drugs and integrated control of schistosomiasis | Q37787339 | ||
Closing in on 'perhaps the most dreadful of the remaining plagues': an independent view of the multidisciplinary alliance to optimize schistosomiasis control in Africa | Q38133175 | ||
Schistosomiasis control: praziquantel forever? | Q38222456 | ||
Susceptibility of Snails to Infection with Schistosomes is influenced by Temperature and Expression of Heat Shock Proteins | Q39141752 | ||
Multi-parasite host susceptibility and multi-host parasite infectivity: a new approach of the Biomphalaria glabrata/Schistosoma mansoni compatibility polymorphism. | Q39190605 | ||
The promise of antimicrobial peptides for treatment of human schistosomiasis. | Q39332298 | ||
Comparative gene analysis of Biomphalaria glabrata hemocytes pre- and post-exposure to miracidia of Schistosoma mansoni | Q40666911 | ||
Interaction of Schistosoma mansoni Sporocysts and Hemocytes of Biomphalaria | Q41777815 | ||
Differential roles of the universal stress proteins of Escherichia coli in oxidative stress resistance, adhesion, and motility | Q42541547 | ||
Phylogenomics reveals an anomalous distribution of USP genes in metazoans | Q42669588 | ||
Schistosomiasis haematobium, Corsica, France | Q42920057 | ||
Crystal structure of the tandem-type universal stress protein TTHA0350 from Thermus thermophilus HB8. | Q43031335 | ||
Schistosome resistance to praziquantel: Fact or artifact? | Q48568906 | ||
P275 | copyright license | Creative Commons Attribution | Q6905323 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 10 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | schistosomiasis | Q221159 |
helminth protein | Q16888356 | ||
heat shock proteins | Q418939 | ||
Schistosoma | Q1457418 | ||
universal stress protein | Q61641774 | ||
P5008 | on focus list of Wikimedia project | ScienceSource | Q55439927 |
P577 | publication date | 2016-09-30 | |
P1433 | published in | International Journal of Environmental Research and Public Health | Q6051382 |
P1476 | title | Universal Stress Proteins as New Targets for Environmental and Therapeutic Interventions of Schistosomiasis | |
P478 | volume | 13 |
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