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Título: Genomic monitoring and engineering stable and safe immortalized cell platforms for industrial cellular agriculture.
Autor: SILVEIRA, K. R. D.
HAACH, V.
BASTOS, A. P. A.
Afiliación: KARINE R. D. SILVEIRA; VANESSA HAACH; ANA PAULA ALMEIDA BASTOS, CNPSA.
Año: 2026
Referencia: Foods, v. 15, n. 12, p. 2218, 2026.
Descripción: Abstract: Cultivated-meat production relies on robust animal cell-line engineering, scalable tissue-engineering strategies, and clearly defined regulatory standards. This review examines the developmental pipeline from primary tissue biopsy to large-scale expansion and regulatory evaluation, focusing on stable and safe immortalized cell platforms. We compare muscle satellite cells, mesenchymal stromal/adipogenic progenitors and induced pluripotent stem cells, highlighting trade-offs among proliferative capacity, lineage commitment, genomic stability, and food-safety considerations. We then analyze immortalization strategies, including spontaneous senescence bypass, telomerase reactivation and CRISPR-based checkpoint modulation, highlighting their impact on genomic stability and food-safety risks. Recent advances in serum-free media, extracellular matrix-mimetic biomaterials and staged co-culture protocols have enabled centimeter-scale tissues with improved texture and marbling; however, cost, reproducibility and scalability remain bottlenecks. Integrating multi-omics surveillance with life-cycle assessment reveals that environmental benefits (land, water and antibiotic reduction) are attainable only when energy inputs and growth-factor sourcing are optimized. Finally, we examine regulatory frameworks that distinguish food-grade immortalized cells from pharmaceutical substrates and genetically modified crops. By integrating cell biology, animal biotechnology, and bioprocess engineering, this review identifies technical priorities for advancing cultivated meat from laboratory development to industrial implementation, positioning genomic monitoring as an essential framework for assessing biological stability, functional predictability, and food-production suitability.
Thesagro: Produção de Carne
Palabras clave: Carne cultivada
Linhagens celulares animais
Células primárias
Imortalização
Estabilidade genômica
Diferenciação miogênica
Cultivated meat
Animal cell lines
Primary cells
Immortalization
Genomic stability
Myogenic differentiation
DOI: https://doi.org/10.3390/foods15122218
Tipo de Material: Artigo de periódico
Acceso: openAccess
Aparece en las colecciones:Artigo em periódico indexado (CNPSA)

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