Bachem turns 50 - a timeline
Bachem, a supplier to pharmaceutical and biotechnology companies worldwide, is celebrating its 50th anniversary this month. We take a look at the Swiss company's history.
1971 - beginnings
Bachem is founded by entrepreneur Peter Grogg in Liestal, a small town near Basel in Switzerland. Grogg started the firm with just two employees, and with a focus on peptide synthesis - peptides are composed of amino acids that have a variety of functions treating health conditions such as cancer and diabetes.
1977 - 1981 - early growth
Bachem moves its headquarters to the Swiss town of Bubendorf, with eight employees. In 1978 the company produces peptides for use in medicines for the first time. In 1981 production capacity triples and the workforce grows to 150.
1987 - 1996 - worldwide expansion
The company expands into the US with Bachem Bioscience, Inc. in Philadelphia. To strengthen its presence in Europe, Bachem opens sales and marketing centres in Germany in 1988.
Further sales centres open in France in 1993. By 1995 the company employs 190 people. In 1996 it acquires the second largest manufacturer of peptides in the world and forms Bachem California with a site in Torrance.
1998 - 2003 - Bachem goes public
Bachem company goes public and lists shares on the Swiss Stock Exchange. Further acquisitions include Peninsula Laboratories, Inc, based in California, and Sochinaz SA, a Swiss-based manufacturer of active pharmaceutical ingredients. By 2001, the company has 500 employees and sales reach 141 million CHF.
In 2003 the organisation is given a new legal holding structure to support its continued growth, which remains in place to this day.
2007 - 2013 - acquisitions
Bachem acquires a brand by Merck Biosciences for ready-to-use clinical trial materials and related services.
In 2013, together with GlyTech, Inc. Bachem announces the development of a new amino acid that can help to treat multiple sclerosis, with a world market of more than $4 billion.
In 2015 it acquires the American Peptide Company (APC), which becomes integrated into Bachem Americas.
2016 - 2019 - a global leader
In 2016 the group opens a new building dedicated to R&D projects and small series production in Bubendorf. With a total of 1,022 employees, the workforce exceeds the 1,000 mark for the first time in the company’s history. Sales are over the 200 million mark for the first time at 236.5 million CHF.
Bachem expands into Asia with the establishment of a new company in Tokyo called Bachem Japan K.K.
By 2019 Bachem has a growing oligonucleotide portfolio - these are DNA molecules used in genetic testing, research, and forensics. It is hoped this will become a significant product range in the future.
2020 - COVID-19
Despite the COVID-19 pandemic, Bachem secures its supply of active ingredients, and even increases it in critical areas. Sales exceed the 400 million Swiss franc mark for the first time, and 272 new employees are hired.
2021 - a milestone anniversary
Bachem celebrates its 50th anniversary and position as a global leader in the manufacture of peptides. While it remains headquartered in Bubendorf, the company employs 1,500 people at six locations worldwide. In the next five years there are plans to continue expanding.
Commemorating the company's anniversary, Kuno Sommer, Chairman of the Board of Directors, said: "Bachem's exceptional success story from a small laboratory to a global market leader is closely linked to Peter Grogg's values, and has been shaped by innovation, consistent quality and cost awareness, as well as by entrepreneurial vision."
5 mins with... Johannes Bhakdi, Quantgene
Quantgene is a US biotech company that uses AI and the cloud to do genomic testing. It was founded in 2015 to focus on cancer - integrating advanced genomics and molecular diagnostics systems with the cloud and AI systems.
CEO Johannes Bhakdi tells us Quantgene is the first COVID-19 testing company to fully integrate variant identification - we find out more.
Given the new Delta and Lambda variants, is the coronavirus mutating at a faster rate than most viruses?
The reason SARS-COV2 is mutating on a perceived higher rate is not that the individual viruses mutate at a higher rate, but that the base population infected with the virus is vastly higher. The absolute rate of global mutations is a direct function of how many people have the virus at any given point in time. Since this is a global pandemic, and tens of millions have been infected, we see more mutations.
That makes it more unpredictable, because any single mutation that has an evolutionary advantage - like the Delta variant - can then take over and spread even faster.
What is the usual process for testing and analysing viral mutations?
The most effective tool for analysing mutations is Whole Viral Genome sequencing. It allows you to read out the entire genome of the virus. Once the wet-lab sequencing is complete, we use this information to map it against what is called a "reference genome", meaning the classic SARS-COV2 genome. This allows us to then see any differences between the investigated sample and the baseline genome of SARS COV2.
We then use these differences to map them against a database of known mutations, like the Delta variant. That way we can see if we are dealing with any known variant, and if we have a new variant at our hands, as well as determine what this new variant does to the spike protein and how likely it is to be a problem with antigens and vaccines, based on the changed protein structure. This last step is not easy and not clear-cut, and there is some speculation into the determination of how problematic the mutated proteins are.
What does Quantgene do differently?
At Quantgene, we are focusing on solving problems for our clients - may it be employers, movie productions or governments. That means we ensure that our client gets the COVID protection they need in the fastest possible time frame and at the highest precision possible - mostly at or below market prices.
We are bringing together technologies like RT-PCR testing and mutation profiling/sequencing, as well as advanced bioinformatics and computational resources to ensure high-quality results are being delivered seamlessly.
We are also adding important components such as real-time cloud software and medical services to it. Simply put, we turn the COVID problem into a one-click seamless solution that works better than others, so companies and government clients don't have to deal with laboratories, medical or software providers who point fingers at each other and fail to deliver in time and with high precision. COVID is too dangerous and important to risk falling short.