References
- Katarzyńska J.: Potencjał aplikacyjny witaminy B12 i jej analogów. Eliksir, 2016; 2: 11-18
- Kräutler B.: Antivitamins B12 – a structure- and reactivity-based concept. Chemistry, 2015; 21: 11280-11287
- Langan R.C., Goodbred A.J.: Vitamin B12 deficiency: Recognition and management. Am. Fam. Physician., 2017; 96: 384-389
- Kośmider A., Czaczyk K.: Witamina B12 – budowa, biosynteza, funkcje i metody oznaczania. Żywn. Nauka Technol. Jakość, 2010; 5: 17-32
- Mziray M., Domagała P., Żuralska R., Siepsiak M.: Witamina B12 – skutki niedoboru, zasadność terapii i suplementacji diety u osób w wieku podeszłym. Pol. Prz. Nauk Zdr., 2016; 3: 295-301
- Zelder F.: Recent trends in the development of vitamin B12 derivatives for medical applications. Chem. Commun., 2015; 51: 1400414017
- Froese D.S., Fowler B., Baumgartner M.R.: Vitamin B12 folate, and the methionine remethylation cycle – biochemistry, pathways, and regulation. J. Inherit Metab. Dis., 2019; 42: 673-685
- Xu Y., Xiang S., Ye K., Zheng Y., Feng X., Zhu X., Chen J., Chen Y.: Cobalamin (vitamin B12) induced a shift in microbial composition and metabolic activity in an in vitro colon simulation. Front. Microbiol., 2018; 9: 2780
- Rowley C.A., Kendall M.M.: To B12 or not to B12: Five questions on the role of cobalamin in host-microbial interactions. PLoS Pathog., 2019; 15: e1007479
- Watkins D., Rosenblatt D.S.: Inborn errors of cobalamin absorption and metabolism. Am. J. Med. Genet. C Semin. Med. Genet., 2011; 157C: 33-44
- Obeid R., Fedosov S.N., Nexo E.: Cobalamin coenzyme forms are not likely to be superior to cyano- and hydroxyl-cobalamin in prevention or treatment of cobalamin deficiency. Mol. Nutr. Food Res., 2015; 59: 1364-1372
- Paul C., Brady D.M.: Comparative bioavailability and utilization of particular forms of B12 supplements with potential to mitigate B12- related genetic polymorphisms. Integr. Med., 2017; 16: 42-49
- Quadros E.V.: Advances in the understanding of cobalamin assimilation and metabolism. Br. J. Haematol., 2010; 148: 195-204
- Socha D.S., DeSouza S.I., Flagg A., Sekers M., Rogers H.J.: Severe megaloblastic anemia: Vitamin deficiency and other causes. Cleve. Clin. J. Med., 2020; 87: 153-164
- Gick G.G., Arora K., Sequeira J.M., Nakayama Y., Lai S.C., Quadros E.V.: Cellular uptake of vitamin B12 Role and fate of TCblR/ CD320, the transcobalamin receptor. Exp. Cell. Res., 2020; 396: 112256
- Kalemba-Drożdż M.: Niedobory folianów w diecie i ich wpływ na stabilność genetyczną. W: Interdyscyplinarne aspekty nauk o zdrowiu, red.: G. Dębska, J. Jaśkiewicz. Krakowskie Towarzystwo Edukacyjne sp. z o.o. – Oficyna Wydawnicza AFM, Kraków 2010, 21-31
- Briani C., Torre C.D., Citton V., Manara R., Pompanin S., Binotto G., Adami F.: Cobalamin deficiency: Clinical picture and radiological findings. Nutrients, 2013; 5: 4521-4539
- Singh N.N., Thomas F.P., Diamond A.L.: Vitamin B-12 associated neurological diseases clinical presentation. Medscape, 2018. https://emedicine.medscape.com/article/1152670-clinical(28.02.2020)
- Takahashi-Iñiguez T., García-Hernandez E., Arreguín-Espinosa R., Flores M.E.: Role of vitamin B12 on methylmalonyl-CoA mutase activity. J. Zhejiang Univ. Sci. B, 2012; 13: 423-437
- Government Dietary Recommendations. Government recommendations for energy and nutrients for males and females aged 1 – 18 years and 19+ years. Public Health England, 2016. https://assets.publishing.service.gov.uk/government/uploads/system/uploads/attachment_data/file/618167/government_dietary_recommendations.pdf (12.01.2020)
- Shipton M.J, Thachil J.: Vitamin B12 deficiency – A 21st century perspective. Clin. Med., 2015; 15: 145-150
- Hannibal L., Lysne V., Bjørke-Monsen A.L., Behringer S., Grünert S.C., Spiekerkoetter U., Jacobsen D.W., Blom H.J.: Biomarkers and algorithms for the diagnosis of vitamin B12 deficiency. Front. Mol. Biosci., 2016; 3: 27
- Zubowska M., Zalewska-Szewczyk B., Stengert W., Mycko K., Młynarski W.: Ciężki niedobór witaminy B12 o nieznanej etiologii u 10-miesięcznej dziewczynki. Hematologia, 2011; 2: 92-97
- Gruber B.M.: B-group vitamins: Chemoprevention? Adv. Clin. Exp. Med., 2016; 25: 561-568
- Hasan T., Arora R., Bansal A.K., Bhattacharya R., Sharma G.S., Singh L.R.: Disturbed homocysteine metabolism is associated with cancer. Exp. Mol. Med., 2019; 51: 1-13
- Łukasik M., Karmalska J., Szutowski M.M., Łukaszkiewicz J.: Wpływ metylacji DNA na funkcjonowanie genomu. Biul. Wydz. Farm. WUM, 2009; 2: 13-18
- Liu Z., Cui C., Wang X., Fernandez-Escobar A., Wu Q., Xu K., Mao J., Jin M., Wang K.: Plasma levels of homocysteine and the occurrence and progression of rectal cancer. Med. Sci. Monit., 2018; 24: 1776-1783
- Fenech M.: Folate (vitamin B9) and vitamin B12 and their function in the maintenance of nuclear and mitochondrial genome integrity. Mutat. Res., 2012; 733: 21-33
- Choi S.W., Mason J.B.: Folate and carcinogenesis: An integrated scheme. J. Nutr., 2000; 130: 129-132
- Zhang D., Wen X., Wu W., Guo Y., Cui W.: Elevated homocysteine level and folate deficiency associated with increased overall risk of carcinogenesis: Meta-analysis of 83 case-control studies involving 35,758 individuals. PLoS One, 2015; 10: e0123423
- Sauer J., Mason J.B., Choi S.W.: Too much folate: A risk factor for cancer and cardiovascular disease? Curr. Opin. Clin. Nutr. Metab. Care, 2009; 12: 30-36
- Czeczot H.: Kwas foliowy w fizjologii i patologii. Postępy Hig. Med. Dośw., 2008; 62: 405-419
- Kim Y.I.: Will mandatory folic acid fortification prevent or promote cancer? Am. J. Clin. Nutr., 2004; 80: 1123-1128
- Mason J.B.: Folate, cancer risk, and the Greek god, Proteus: A tale of two chameleons. Nutr. Rev., 2009; 67: 206-212
- Duthie S.J.: Folate and cancer: How DNA damage, repair and methylation impact on colon carcinogenesis. J. Inherit. Metab. Dis., 2011; 34: 101-109
- Curtin K., Samowitz W.S., Ulrich C.M., Wolff R.K., Herrick J.S., Caan B.J., Slattery M.L.: Nutrients in folate-mediated, one-carbon metabolism and the risk of rectal tumors in men and women. Nutr. Cancer, 2011; 63: 357-366
- Boyer A.S., Walter D., Sørensen C.S.: DNA replication and cancer: From dysfunctional replication origin activities to therapeutic opportunities. Semin. Cancer Biol., 2016; 37-38: 16-25
- Gaillard H., García-Muse T., Aguilera A.: Replication stress and cancer. Nat. Rev. Cancer, 2015; 15: 276-289
- Miles L.: Vitamin B12 status and neurological function in older people. PhD thesis, London School of Hygiene & Tropical Medicine. 2016, DOI: https://doi.org/10.17037/PUBS.02837733
- Zboch M., Gwizdak-Siwkowska B., Serafin J., Śmigórski K., Tyfel P., Leszek J.: Niedobór witaminy B12 jako czynnik rozwoju procesu otępiennego. Med. Rodz., 2010; 2010: 14-19
- Kosgei V.J., Coelho D., Guéant-Rodriguez R.M., Guéant J.L.: Sirt1-PPARS cross-talk in complex metabolic diseases and inherited disorders of the one carbon metabolism. Cells, 2020; 9: 1882
- Ghemrawi R., Khair M.: Endoplasmic reticulum stress and unfolded protein response in neurodegenerative diseases. Int. J. Mol. Sci., 2020; 21: 6127
- Palmer A.M., Kamynina E., Field M.S., Stover P.J.: Folate rescues vitamin B12 depletion-induced inhibition of nuclear thymidylate biosynthesis and genome instability. Proc. Natl. Acad. Sci. USA, 2017; 114: E4095-E4102
- Harrington D.J.: Laboratory assessment of vitamin B12 status. J. Clin. Pathol., 2017; 70: 168-173
- Vashi P., Edwin P., Popiel B., Lammersfeld C., Gupta D.: Methylmalonic acid and homocysteine as indicators of vitamin B-12 deficiency in cancer. PLoS One, 2016; 11: e0147843