@misc{kulus_jankowski_kranc_narenji_farzaneh_dziegiel_zabel_antosik_bukowska_mozdziak_et al._2023, title={Bioreactors, scaffolds and microcarriers and in vitro meat production-current obstacles and potential solutions}, volume={10}, ISSN={["2296-861X"]}, DOI={10.3389/fnut.2023.1225233}, abstractNote={In vitro meat production presents a potential viable alternative for meat consumption, which could provide the consumer with a product indistinguishable from the original, with very similar nutritional and culinary values. Indeed, the alternative products currently accessible often lack comparable nutritional value or culinary attributes to their animal-derived counterparts. This creates challenges for their global acceptance, particularly in countries where meat consumption holds cultural significance. However, while cultured meat research has been progressing rapidly in recent years, some significant obstacles still need to be overcome before its possible commercialization. Hence, this review summarizes the most current knowledge regarding the history of cultured meat, the currently used cell sources and methods used for the purpose of in vitro meat production, with particular focus on the role of bioreactors, scaffolds and microcarriers in overcoming the current obstacles. The authors put the potential microcarrier and scaffold-based solutions in a context, discussing the ways in which they can impact the way forward for the technology, including the use of considering the potential practical and societal barriers to implementing it as a viable food source worldwide.}, journal={FRONTIERS IN NUTRITION}, author={Kulus, Magdalena and Jankowski, Maurycy and Kranc, Wieslawa and Narenji, Afsaneh Golkar and Farzaneh, Maryam and Dziegiel, Piotr and Zabel, Maciej and Antosik, Pawel and Bukowska, Dorota and Mozdziak, Paul and et al.}, year={2023}, month={Sep} }
 @article{golkar-narenji_dziegiel_kempisty_petitte_mozdziak_bryja_2023, title={In vitro culture of reptile PGCS to preserve endangered species}, volume={5}, ISSN={["1095-8355"]}, DOI={10.1002/cbin.12033}, abstractNote={Abstract}, journal={CELL BIOLOGY INTERNATIONAL}, author={Golkar-Narenji, Afsaneh and Dziegiel, Piotr and Kempisty, Bartosz and Petitte, James and Mozdziak, Paul Edward and Bryja, Artur}, year={2023}, month={May} }
 @article{rasouli-gharehsaghal_shakeri_zhandi_amini_ghadimi_golkar-narenji_mozdziak_2023, title={Spermatogenesis regeneration by transfected spermatogonial stem cells in infertile roosters through testicular transplantation}, volume={198}, ISSN={["1879-3231"]}, DOI={10.1016/j.theriogenology.2022.12.026}, abstractNote={Investigations pertaining to spermatogonial stem cells (SSCs) have led to the use of these cells in a variety of fields including infertility treatments, production of transgenic animals, and genome editing. The aim of the present study was to investigate the plausibility of regenerating spermatogenesis in infertile roosters by transplanting transfected SSCs into testes. Spermatogonial stem cells were isolated and cultured for seven days. Afterward, pDB2, a plasmid vector carrying a reporter gene, GFP, was transfected into the SSCs. Transfected SSCs were transplanted into the left testis of infertile roosters. Tissue samples from the recipients' testes were obtained six weeks after the transplantation and transplanted SSCs were observed in the basement membrane. After eight weeks, GFP-positive spermatozoa were observed in collected semen from the recipient roosters and GFP gene in spermatozoa was confirmed using PCR. The recipient roosters were mated with hens. Hatchlings were visually checked and their tissue samples were tested by PCR to identify transgenesis but both of them were negative. Overall, it seems that regeneration of spermatogenesis in roosters via transfected SSCs is possible but more studies are need to produce recombinant proteins by this way.}, journal={THERIOGENOLOGY}, author={Rasouli-Gharehsaghal, Kazem and Shakeri, Malak and Zhandi, Mahdi and Amini, Hamid-Reza and Ghadimi, Fereshteh and Golkar-Narenji, Afsaneh and Mozdziak, Paul Edward}, year={2023}, month={Mar}, pages={100–106} }
 @article{golkar-narenji_petitte_mozdziak_2020, title={Transgenic chicken/poultry birds: serving us for survival}, ISBN={["978-0-12-816352-8"]}, DOI={10.1016/B978-0-12-816352-8.00009-6}, abstractNote={Avian transgenesis has been considered as a useful tool for many purposes including improvement of the poultry industry, production of recombinant proteins and developmental biology. Due to the importance of the poultry industry in human nutrition, many efforts have been made for the improvement of the poultry industry in the aspect of egg and meat production for higher quantity or quality. After the development of transgenic technology the idea of transgenic poultry was raised for the application of this technology in the poultry industry. Due to the important role of recombinant proteins and humanized antibodies for medical and diagnostic purposes, mass production of these biological macromolecules is very important in human health. Development of transgenic technology in poultry science possibly helps to improve the efficiency of poultry industry productions and it may cause the development of different branches of avian industry with novel productions.}, journal={GENOMICS AND BIOTECHNOLOGICAL ADVANCES IN VETERINARY, POULTRY, AND FISHERIES}, author={Golkar-Narenji, Afsaneh and Petitte, James N. and Mozdziak, Paul E.}, year={2020}, pages={211–221} }