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Cited by in CrossRef
For: Kolachala VL, Sesikeran B, Nair KM. Evidence for a sequential transfer of iron amongst ferritin, transferrin and transferrin receptor during duodenal absorption of iron in rat and human. World J Gastroenterol 2007; 13(7): 1042-1052 [PMID: 17373738 DOI: 10.3748/wjg.v13.i7.1042]
URL: https://www.wjgnet.com/1007-9327/full/v13/i7/1042.htm
Number Citing Articles
1
Elmer Antileo, Carolina Garri, Victoria Tapia, Juan Pablo Muñoz, Mario Chiong, Francisco Nualart, Sergio Lavandero, Juan Fernández, Marco T. Núñez. Endocytic pathway of exogenous iron-loaded ferritin in intestinal epithelial (Caco-2) cellsAmerican Journal of Physiology-Gastrointestinal and Liver Physiology 2013; 304(7): G655 doi: 10.1152/ajpgi.00472.2012
2
Y. García, J. Díaz-Castro. Advantages and disadvantages of the animal models v. in vitro studies in iron metabolism: a reviewAnimal 2013; 7(10): 1651 doi: 10.1017/S1751731113001134
3
Marco T. Núñez. Regulatory mechanisms of intestinal iron absorption—Uncovering of a fast‐response mechanism based on DMT1 and ferroportin endocytosisBioFactors 2010; 36(2): 88 doi: 10.1002/biof.84
4
Modulation of Duodenal TfR Expression in IDA Induced Rat with Date Palm and Goat Milk IntakeMalaysian Journal of Science and Advanced Technology 2024; : 68 doi: 10.56532/mjsat.v4i1.207
5
Limei Zhou, Yunxia Shang, Yaru Wang, Xiaohui Wei. Transferrin modified PEG–PLGA nanoparticles: highly effective notoginsenoside R1 formulations for the treatment of ulcerative colitisJournal of Pharmaceutical Investigation 2024; 54(3): 357 doi: 10.1007/s40005-023-00657-4
6
A. Herosimczyk, A. Lepczyński, M. Ożgo, A. Tuśnio, M. Taciak, M. Barszcz. Effect of dietary inclusion of 1% or 3% of native chicory inulin on the large intestinal mucosa proteome of growing pigsAnimal 2020; 14(8): 1647 doi: 10.1017/S1751731120000440
7
Ritesh Kumar Shukla, N Venkat Appa Rao. Immunohistochemistry as an important tool for exploring the insights of various aspects of gastro-intestinal tractThe Applied Biology & Chemistry Journal 2020; : 72 doi: 10.52679/tabcj.2020.0009
8
Kishore Golla, Palakolanu S. Reddy, C. Bhaskar, Anand K. Kondapi. Biocompatibility, absorption and safety of protein nanoparticle-based delivery of doxorubicin through oral administration in ratsDrug Delivery 2013; 20(3-4): 156 doi: 10.3109/10717544.2013.801051
9
Andrea Colins, Ziomara P. Gerdtzen, Marco T. Nuñez, J. Cristian Salgado, Fanis Missirlis. Mathematical Modeling of Intestinal Iron Absorption Using Genetic ProgrammingPLOS ONE 2017; 12(1): e0169601 doi: 10.1371/journal.pone.0169601
10
A. Lepczyński, A. Herosimczyk, M. Ożgo, M. Barszcz, M. Taciak, J. Skomiał. Modification of ileal proteome in growing pigs by dietary supplementation with inulin or dried chicory rootJournal of Animal and Feed Sciences 2019; 28(2): 177 doi: 10.22358/jafs/109518/2019
11
Raphael R. Fagundes, Arno R. Bourgonje, Shixian Hu, Ruggero Barbieri, Bernadien H. Jansen, Nienke Sinnema, Tjasso Blokzijl, Cormac T. Taylor, Rinse K. Weersma, Klaas Nico Faber, Gerard Dijkstra. HIF1α-Dependent Induction of TFRC by a Combination of Intestinal Inflammation and Systemic Iron Deficiency in Inflammatory Bowel DiseaseFrontiers in Physiology 2022; 13 doi: 10.3389/fphys.2022.889091
12
Boaz Tirosh, Nadine Khatib, Yechezkel Barenholz, Aviram Nissan, Abraham Rubinstein. Transferrin as a Luminal Target for Negatively Charged Liposomes in the Inflamed Colonic MucosaMolecular Pharmaceutics 2009; 6(4): 1083 doi: 10.1021/mp9000926
13
Marco T. Núñez, Victoria Tapia, Alejandro Rojas, Pabla Aguirre, Francisco Gómez, Francisco Nualart. Iron supply determines apical/basolateral membrane distribution of intestinal iron transporters DMT1 and ferroportin 1American Journal of Physiology-Cell Physiology 2010; 298(3): C477 doi: 10.1152/ajpcell.00168.2009
14
Constancio Gonzalez-Obeso, Alessandra Girotti, J. Carlos Rodriguez-Cabello. A transferrin receptor-binding mucoadhesive elastin-like recombinamer: In vitro and in vivo characterizationActa Biomaterialia 2019; 88: 241 doi: 10.1016/j.actbio.2019.02.027