Drug Discovery Stocks List

Related ETFs - A few ETFs which own one or more of the above listed Drug Discovery stocks.

Drug Discovery Stocks Recent News

Date Stock Title
Nov 22 IDYA Ideaya Biosciences Inc. (IDYA): Among the NASDAQ Stocks with Biggest Upside Potential According to Analysts
Nov 21 BMRN Why Is BioMarin Pharmaceutical Inc. (BMRN) Among the Worst Performing Biotech Stocks in 2024?
Nov 21 BMRN BioMarin: Challenges Mount, But Sale Rumors Make For A Risky 'Buy' Call
Nov 21 BMRN Here's Why BioMarin Pharmaceutical (BMRN) is a Strong Value Stock
Nov 20 TWST Twist Bioscience Full Year 2024 Earnings: EPS Misses Expectations
Nov 20 TWST Twist Bioscience price target lowered to $52 from $55 at Barclays
Nov 19 BMRN BioMarin Pharmaceutical Inc. (BMRN): Among the Best Genomics Stocks to Buy Right Now
Nov 19 TWST Twist Bioscience Corporation (TWST): Among the Best Genomics Stocks to Buy Right Now
Nov 19 TWST Company News for Nov 19, 2024
Nov 19 TWST Q4 2024 Twist Bioscience Corp Earnings Call
Nov 19 TWST Twist Bioscience Corp (TWST) Q4 2024 Earnings Call Highlights: Record Revenue Growth and ...
Nov 18 TWST Twist Bioscience: A Post-Earnings Assessment
Nov 18 TWST Twist Bioscience rises 13% on FQ4 earnings beats, 2025 revenue outlook
Nov 18 TWST Twist Bioscience's Q4 Earnings And Q1 Guidance Surpass Expectations, Stock Jumps
Nov 18 TWST Twist Bioscience Corporation (TWST) Q4 2024 Earnings Call Transcript
Nov 18 TWST Twist Bioscience (TWST) Reports Q4 Loss, Tops Revenue Estimates
Nov 18 TWST Earnings Snapshot: Twist Bioscience tops FQ4 estimates; initiates FQ1 and FY25 outlook
Nov 18 TWST Twist Bioscience: Fiscal Q4 Earnings Snapshot
Nov 18 TWST Twist Bioscience GAAP EPS of -$0.59 beats by $0.11, revenue of $84.71M beats by $2.05M
Nov 18 TWST Twist Bioscience Announces Fiscal 2024 Fourth Quarter and Full Year Financial Results
Drug Discovery

In the fields of medicine, biotechnology and pharmacology, drug discovery is the process by which new candidate medications are discovered. Historically, drugs were discovered through identifying the active ingredient from traditional remedies or by serendipitous discovery. Later chemical libraries of synthetic small molecules, natural products or extracts were screened in intact cells or whole organisms to identify substances that have a desirable therapeutic effect in a process known as
classical pharmacology. Since sequencing of the human genome which allowed rapid cloning and synthesis of large quantities of purified proteins, it has become common practice to use high throughput screening of large compounds libraries against isolated biological targets which are hypothesized to be disease modifying in a process known as reverse pharmacology. Hits from these screens are then tested in cells and then in animals for efficacy.
Modern drug discovery involves the identification of screening hits, medicinal chemistry and optimization of those hits to increase the affinity, selectivity (to reduce the potential of side effects), efficacy/potency, metabolic stability (to increase the half-life), and oral bioavailability. Once a compound that fulfills all of these requirements has been identified, it will begin the process of drug development prior to clinical trials. One or more of these steps may, but not necessarily, involve computer-aided drug design. Modern drug discovery is thus usually a capital-intensive process that involves large investments by pharmaceutical industry corporations as well as national governments (who provide grants and loan guarantees). Despite advances in technology and understanding of biological systems, drug discovery is still a lengthy, "expensive, difficult, and inefficient process" with low rate of new therapeutic discovery. In 2010, the research and development cost of each new molecular entity was about US$1.8 billion. Drug discovery is done by pharmaceutical companies, with research assistance from universities. The "final product" of drug discovery is a patent on the potential drug. The drug requires very expensive Phase I, II and III clinical trials, and most of them fail. Small companies have a critical role, often then selling the rights to larger companies that have the resources to run the clinical trials.
Discovering drugs that may be a commercial success, or a public health success, involves a complex interaction between investors, industry, academia, patent laws, regulatory exclusivity, marketing and the need to balance secrecy with communication. Meanwhile, for disorders whose rarity means that no large commercial success or public health effect can be expected, the orphan drug funding process ensures that people who experience those disorders can have some hope of pharmacotherapeutic advances.

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