Age, Biography and Wiki

Bert Vogelstein was born on 2 June, 1949 in Baltimore, Maryland, U.S.. Discover Bert Vogelstein's Biography, Age, Height, Physical Stats, Dating/Affairs, Family and career updates. Learn How rich is He in this year and how He spends money? Also learn how He earned most of networth at the age of 74 years old?

Popular As N/A
Occupation N/A
Age 75 years old
Zodiac Sign Gemini
Born 2 June 1949
Birthday 2 June
Birthplace Baltimore, Maryland, U.S.
Nationality United States

We recommend you to check the complete list of Famous People born on 2 June. He is a member of famous with the age 75 years old group.

Bert Vogelstein Height, Weight & Measurements

At 75 years old, Bert Vogelstein height not available right now. We will update Bert Vogelstein's Height, weight, Body Measurements, Eye Color, Hair Color, Shoe & Dress size soon as possible.

Physical Status
Height Not Available
Weight Not Available
Body Measurements Not Available
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Who Is Bert Vogelstein's Wife?

His wife is Ilene Vogelstein

Family
Parents Not Available
Wife Ilene Vogelstein
Sibling Not Available
Children R. Jacob Vogelstein, Joshua T. Vogelstein, and one more, Grandchildren: 5

Bert Vogelstein Net Worth

His net worth has been growing significantly in 2022-2023. So, how much is Bert Vogelstein worth at the age of 75 years old? Bert Vogelstein’s income source is mostly from being a successful . He is from United States. We have estimated Bert Vogelstein's net worth , money, salary, income, and assets.

Net Worth in 2023 $1 Million - $5 Million
Salary in 2023 Under Review
Net Worth in 2022 Pending
Salary in 2022 Under Review
House Not Available
Cars Not Available
Source of Income

Bert Vogelstein Social Network

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Timeline

2019

In mid-2019, Vogelstein started collaborating with the group of Martin Nowak at Harvard University. Together with their groups, they developed mathematical models to explain the evolution of resistance against targeted therapies. They showed that the sequential administration of multiple targeted drugs precludes any chance for cure — even when there are no possible mutations that can confer cross-resistance to both drugs. Thus, simultaneous combination of targeted therapies (as opposed to sequential) is the preferred strategy as there is at least a potential for cure.

2016

In 2016 Semantic Scholar AI program included Vogelstein on its list of top ten most influential biomedical researchers.

2000

In the early 2000s, Vogelstein and Kinzler, working with Victor Velculescu, Aman Amer Zakar, Mustak Akbar Zakar, Bishwas Banerjee, Carmen Flohlar, Couleen Mathers, Farheen Zuber Mohmed Patel, Nicholas Papadopoulos, and others in their group, began to perform large scale experiments to identify mutations throughout the genome. They were to perform "exomic sequencing", meaning determination of the sequence of every protein-encoding gene in the human genome. The first analyzed tumors included those of the colon, breast, pancreas, and brain. These studies outlined the landscapes of human cancer genomes, later confirmed by massively parallel sequencing of many different tumor types by laboratories throughout the world. In the process of analyzing all the protein-encoding genes within cancers, Vogelstein and his colleagues discovered several novel genes that play important roles in cancer, such as PIK3CA, IDH1, IDH2, ARID1A, ARID2, ATRX, DAXX, MLL2, MLL3, CIC, and RNF43.

1991

In 1991, Vogelstein and long-time colleague Kenneth W. Kinzler, working with Yusuke Nakamura in Japan, discovered another tumor suppressor gene. This gene, called APC, was responsible for Familial Adenomatous Polyposis (FAP), a syndrome associated with the development of numerous small benign tumors, some of which progress to cancer. This gene was independently discovered by Ray White's group at the University of Utah. Vogelstein and Kinzler subsequently showed that non-hereditary (somatic) mutations of APC initiate most cases of colon and rectal cancers. They also showed how APC functions – through binding to beta-catenin and stimulating its degradation.

1990

Vogelstein pioneered the idea that somatic mutations represent uniquely specific biomarkers for cancer, creating the field now called "liquid biopsies". Working with post-doctoral fellow David Sidransky in the early 1990s, he showed that such somatic mutations were detectable in the stool of colorectal cancer patients and the urine of bladder cancer patients. For this purpose, they developed "Digital PCR" in which DNA molecules are examined one-by-one to determine whether they are normal or mutated. One of the techniques they invented for Digital PCR is called "BEAMing", in which the PCR is carried out on magnetic beads in water-in-oil emulsions. BEAMing is now one of the core technologies used in some next-generation, massively parallel sequencing instruments. More recently, they developed a digital-PCR based technique called SafeSeqS, in which every DNA template molecule is recognized by a unique molecular barcode. SafeSeqS dramatically enhances the ability to identify rare variants among DNA sequences, allowing such variants to be detected when they are present in only 1 in more than 10,000 total DNA molecules.

1989

The first tumor suppressor gene validating this hypothesis was that encoding p53. The p53 protein was discovered 10 years earlier by several groups, including that of David Lane and Lionel Crawford, Arnold Levine, and Lloyd Old. But there was no evidence that p53 played a major role in human cancers, and the gene encoding p53 (TP53) was thought to be an oncogene rather than a tumor suppressor gene. In 1989, Vogelstein and his students discovered that TP53 not only played a role in human tumorigenesis, but that it was a common denominator of human tumors, mutated in the majority of them. He then discovered the mechanism through which TP53 suppresses tumorigenesis. Prior to these studies, the only biochemical function attributed to p53 was its binding to heat shock proteins. Vogelstein and his colleagues demonstrated that p53 had a much more specific activity: it bound DNA in a sequence-specific manner. They precisely defined its consensus recognition sequence and showed that virtually all p53 mutations found in tumors resulted in loss of the sequence-specific transcriptional activation properties of p53. They subsequently discovered genes that are directly activated by p53 to control cell birth and cell death. His group's more recent studies examining the entire compendium of human genes have shown that the TP53 gene is more frequently mutated in cancers than any other gene .

1980

In the 1980s, Vogelstein developed new experimental approaches to study human tumors. His studies of various stages of colorectal cancers led him to propose a specific model for human tumorigenesis in 1988. In particular, he suggested that "cancer is caused by sequential mutations of specific oncogenes and tumor suppressor genes".

1949

Bert Vogelstein (born 1949) is director of the Ludwig Center, Clayton Professor of Oncology and Pathology and a Howard Hughes Medical Institute investigator at The Johns Hopkins Medical School and Sidney Kimmel Comprehensive Cancer Center. A pioneer in the field of cancer genomics, his studies on colorectal cancers revealed that they result from the sequential accumulation of mutations in oncogenes and tumor suppressor genes. These studies now form the paradigm for modern cancer research and provided the basis for the notion of the somatic evolution of cancer.