Pitanje br. 17647
 
Pitanje: 
 Energetski status D54 sfera u ovisnosti o veličini sfera i dostupnosti nutrijenata
Odgovor: 
 Knjige:

  1. Harperova ilustrirana biokemija / Robert K.[Kincaid] Murray... [et al.]. Zagreb : Medicinska naklada, 2011. - sign.  577(075.8) /HAR/

  2. Klinička onkologija / Eduard Vrdoljak... [et al.]. Zagreb : Medicinska naklada, 2018. - sign.  616-006(075.8) /KLI/

  3. Medicinska biokemija i laboratorijska medicina u kliničkoj praksi / / Elizabeta Topić ... [et al.]. Zagreb : Medicinska naklada, 2018.  -sign.  616-07(075.8) /MED/

  4. Štrausova medicinska biokemija / urednice Dubravka Čvorišćec i Ivana Čepelak. Zagreb : Medicinska naklada, 2009. - sign.  61(075.8) /ŠTR/

  5. Berg, Jeremy Mark. Biokemija. Zagreb : Školska knjiga, 2013. - sign.  577(075.8) /BER/ b

  6. Cooper, Geoffrey M. Stanica : molekularni pristup. Zagreb : Medicinska naklada, 2010. - sign.  576(075.8) /COO/ s

  7. Cox, Timothy M. Molekularna biologija u medicini. Zagreb : Medicinska naklada, 2000. - sign.  577(075.8) /COX/ m

  8. Šamija, Mirko. Klinička onkologija. Zagreb : Zdravstveno veleučilište, 2012. - sign.  616-006(075.8) /ŠAM/ k  OP

  9. Weaver, Robert Franklin. Molecular biology. Boston : McGraw-Hill, 2002. - sign.  577(075.8) /WEA/ m


Izvori na internetu (04.07.2022.):


  1. Antoni, Delphine. Three-dimensional cell culture: a breakthrough in vivo. // International journal of molecular sciences. - 16 (2015), 3; str. 5517-5527. URL: https://www.mdpi.com/1422-0067/16/3/5517/pdf

  2. Chaicharoenaudomrung, Nipha. Three-dimensional cell culture systems as an in vitro platform for cancer and stem cell modeling. // World journal of stem cells. - 11 (2019), 12; str. 1065-1083. URL: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6904866/

  3. Contreras-Ochoa, C. O. Molecular mechanisms of cell death induced in glioblastoma by experimental and antineoplastic drugs: New and old drugs induce apoptosis in glioblastoma. // Human & Experimental Toxicology. - 39 (2020), 4; str. 464-476. URL: https://journals.sagepub.com/doi/full/10.1177/0960327119892041

  4. Kant, Shiva. Enhanced fatty acid oxidation provides glioblastoma cells metabolic plasticity to accommodate to its dynamic nutrient microenvironment. // Cell death & disease. - 11 (2020), 4; str. 1-13. URL: https://www.nature.com/articles/s41419-020-2449-5

  5. Kapałczyńska, Marta. 2D and 3D cell cultures–a comparison of different types of cancer cell cultures. // Archives of Medical Science. - 14 (2018), 4; str. 910-919. URL: https://www.termedia.pl/Journal/-19/pdf-28752-10?filename=2D%20and%203D.pdf

  6. Larocque, Gabrielle. Tumor protein D54 defines a new class of intracellular transport vesicles. // Journal of Cell Biology. - 219 (2020), 1; str. 1-24. URL: https://rupress.org/jcb/article/132502/Tumor-protein-D54-defines-a-new-class-of

  7. Leong, Shye Wei. Effectiveness of Bioinks and the Clinical Value of 3D Bioprinted Glioblastoma Models: A Systematic Review. // Cancers. - 14 (2022), 9; str. 1-19. URL: https://www.mdpi.com/2072-6694/14/9/2149/pdf?version=1650960416

  8. Matsusaki, Michiya. Three-dimensional cell culture technique and pathophysiology. // Advanced Drug Delivery Reviews. - 74 (2014); str. 95-103. URL: https://www.sciencedirect.com/science/article/am/pii/S0169409X14000040

  9. Schold Jr, S. Therapeutic Profile of the Human Glioma Line D-54 MG in Athymic Mice 1, 2, 3. // Cancer treatment reports. - 71 (1987), 9; str. 849-850. URL: shorturl.at/behjw

  10. Wikstrand, Carol J. Demonstration of complex antigenic heterogeneity in a human glioma cell line and eight derived clones by specific monoclonal antibodies. // Cancer research. - 43 (1983), 7; str. 3327-3334. URL: https://www.researchgate.net/profile/Carol-Wikstrand-3/publication/16891866_Demonstration_of_Complex_Antigenic_Heterogeneity_in_a_Human_Glioma_Cell_Line_and_Eight_Derived_Clones_by_Specific_Monoclonal_Antibodies/links/0deec53739f716b686000000/Demonstration-of-Complex-Antigenic-Heterogeneity-in-a-Human-Glioma-Cell-Line-and-Eight-Derived-Clones-by-Specific-Monoclonal-Antibodies.pdf




 
UDK pojmovi: 
577 Biokemija
Predmetnice: 
 Medicinska biokemija