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El-Sofany Walaa I. Osman Dalia Ahmed A. Mahran Asma M. May El-Manawaty A. El-Sayed Wael A. 《Russian Journal of Bioorganic Chemistry》2020,46(5):873-873
Russian Journal of Bioorganic Chemistry - erratum 相似文献
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Abdullah Al Emran Hsin‐Yi Tseng Mikaela C. Coleman Jessamy Tiffen Stuart Cook Helen M. McGuire Stuart Gallagher Carl Feng Peter Hersey 《Pigment cell & melanoma research》2020,33(5):660-670
Melanoma, as for many other cancers, undergoes a selection process during progression that limits many innate and adaptive tumor control mechanisms. Immunotherapy with immune checkpoint blockade overcomes one of the escape mechanisms but if the tumor is not eliminated other escape mechanisms evolve that require new approaches for tumor control. Some of the innate mechanisms that have evolved against infections with microorganisms and viruses are proving to be active against cancer cells but require better understanding of how they are activated and what inhibitory mechanisms may need to be targeted. This is particularly so for inflammasomes which have evolved against many different organisms and which recruit a number of cytotoxic mechanisms that remain poorly understood. Equally important is understanding of where these mechanisms will fit into existing treatment strategies and whether existing strategies already involve the innate killing mechanisms. 相似文献
45.
Noura Hamed Khalifa Al Shaqsi Horiya Ali Said Al Hoqani Mohammad Amzad Hossain Mohammed Abdullah Al Sibani 《Biochemistry and Biophysics Reports》2020
Chitin is an organic polymer and it is the most frequent marine natural polysaccharide after cellulose. The main natural sources of chitin are exoskeletons of insects, mollusks, the cell walls of certain fungi and crustaceans such as crabs, shrimps and lobsters. The waste of these marine exoskeletons are pollutant for the environment, but these waste raw materials could be useful for production of commercial products like chitin. Chitin is an important raw material used for water treatment, agricultural, biomedical, biotechnological purposes, food and paper industry and cosmetics. Based on the variety of importance, the present targets of this study are to optimize the demineralization process for the removal of calcium and phosphate contents from the waste of Portunidae segnis (P. segnis) by using acid at ambient temperature and to characterize the isolated demineralized sample as well as the percentage of remaining calcium and phosphorus contents by using Inductively Coupled Plasma-Optical Emission Spectrometry (ICP-OES). The prepared waste carbs coarse powder samples of P. segnis were demineralized with seven different concentrations of hydrochloric acid at ambient temperature for 1 h. All the demineralization samples by the different concentrations were analyzed by using sensitive ICP-OES. The results based on ICP-OES showed that among the seven different concentrations used in the demineralization process for the isolation of chitin, the best was 2 M of HCl concentration for the production of chitin. The results also showed that the optimized concentration 2 M HCl gave the minimum concentration of calcium and phosphorus compared to other concentrations applied in this experiment. In conclusion, the optimized concentration for demineralization process could be used commercially for the isolation or commercial production of chitin for agricultural, biomedical and biotechnological purposes. 相似文献
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Molecular Biology Reports - Alzheimer’s disease (AD) is a neurodegenerative old age disease that is complex, multifactorial, unalterable, and progressive in nature. The currently approved... 相似文献
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Chunmei Li Eliane Beauregard-Lacroix Christine Kondratev Justine Rousseau Ah Jung Heo Katherine Neas Brett H. Graham Jill A. Rosenfeld Carlos A. Bacino Matias Wagner Maren Wenzel Fuad Al Mutairi Hamad Al Deiab Joseph G. Gleeson Valentina Stanley Maha S. Zaki Yong Tae Kwon Michel R. Leroux Philippe M. Campeau 《American journal of human genetics》2021,108(1):134-147
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Ilse Van Gucht Josephina A.N. Meester Jotte Rodrigues Bento Maaike Bastiaansen Jarl Bastianen Ilse Luyckx Lotte Van Den Heuvel Cédric H.G. Neutel Pieter-Jan Guns Mandy Vermont Erik Fransen Melanie H.A.M. Perik Joe Davis Velchev Maaike Alaerts Dorien Schepers Silke Peeters Isabel Pintelon Abdulrahman Almesned Aline Verstraeten 《American journal of human genetics》2021,108(6):1115-1125
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Bogan Mustafa Al Behcet Kul Seval Zengin Suat Oktay Murat Sabak Mustafa Gümüşboğa Hasan Bayram Hasan 《International journal of biometeorology》2021,65(10):1733-1739
International Journal of Biometeorology - Epidemiological studies have suggested an association between particulate air pollution, increased temperatures, and morbidity related to pregnancy... 相似文献
50.
The axolotl, Ambystoma mexicanum, is used extensively for research in developmental biology, particularly for its ability to regenerate and restore lost organs, including in the nervous system, to full functionality. Regeneration in mammals typically depends on the healing process and scar formation with limited replacement of lost tissue. Other organisms, such as spiny mice (Acomys cahirinus), salamanders, and zebrafish, are able to regenerate some damaged body components. Blastema is a tissue that is formed after tissue injury in such organisms and is composed of progenitor cells or dedifferentiated cells that differentiate into various cell types during regeneration. Thus, identifying the molecules responsible for initiation of blastema formation is an important aspect for understanding regeneration. Introns, a major source of noncoding RNAs (ncRNAs), have characteristic sizes in the axolotl, particularly in genes associated with development. These ncRNAs, particularly microRNAs (miRNAs), exhibit dynamic regulation during regeneration. These miRNAs play an essential role in timing and control of gene expression to order and organize processes necessary for blastema creation. Master keys or molecules that underlie the remarkable regenerative abilities of the axolotl remain to be fully explored and exploited. Further and ongoing research on regeneration promises new knowledge that may allow improved repair and renewal of human tissues. 相似文献