The cell and gene supply chain is a critical component of the biotechnology industry, involving the production and distribution of high-value biological materials such as cells, genes, and other biomolecules. The supply chain includes various stakeholders, including cell banks, biomanufacturers, distributors, and research institutions, which work together to ensure the quality, safety, and availability of these biological materials. The supply chain is complex and vulnerable to disruptions, with potential impacts on product efficacy, patient care, and public health. To mitigate these risks,

The cell and gene supply chain is a critical component of the biotechnology industry, involving the production and distribution of high-value biological materials such as cells, genes, and other biomolecules. The supply chain includes various stakeholders, including cell banks, biomanufacturers, distributors, and research institutions, which work together to ensure the quality, safety, and availability of these biological materials. The supply chain is complex and vulnerable to disruptions, with potential impacts on product efficacy, patient care, and public health. To mitigate these risks,

The pharmaceutical supply chain involves the process of sourcing, manufacturing, distributing, and dispensing pharmaceutical products to ensure timely access, quality control, and regulatory compliance. This complex network requires coordination among various stakeholders, including manufacturers, distributors, wholesalers, pharmacies, and healthcare providers, to ensure the safe and efficient delivery of essential medicines to patients. Proactive management and transparency within the supply chain are essential to address challenges such as drug shortages, counterfeiting, and regulatory com

Germline cells are important but extremely delicate plant, animal, and human cells whose genetic composition contains DNA from all of their generations. Now, these cells can be altered using the potent CRISPR/Cas9 gene-editing method. The novel method focuses on the RNA-based expression of specific genes in germ cells. A recent study published in the journal Molecular Cell suggests that this molecular "CRISPR-on-a-chip" assay may even be useful against the relatively old retroviruses that cause cystic fibrosis in some individuals.

Though it should be made clear that this is not a method