Age, Biography and Wiki

Elizabeth Nolan (Elizabeth Marie Nolan) was born on 1978 in Niskayuna, New York, United States, is an American biochemist. Discover Elizabeth Nolan's Biography, Age, Height, Physical Stats, Dating/Affairs, Family and career updates. Learn How rich is she in this year and how she spends money? Also learn how she earned most of networth at the age of 46 years old?

Popular As Elizabeth Marie Nolan
Occupation N/A
Age 46 years old
Zodiac Sign N/A
Born 1978
Birthday
Birthplace Niskayuna, New York, United States
Nationality United States

We recommend you to check the complete list of Famous People born on . She is a member of famous with the age 46 years old group.

Elizabeth Nolan Height, Weight & Measurements

At 46 years old, Elizabeth Nolan height not available right now. We will update Elizabeth Nolan's Height, weight, Body Measurements, Eye Color, Hair Color, Shoe & Dress size soon as possible.

Physical Status
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Dating & Relationship status

She is currently single. She is not dating anyone. We don't have much information about She's past relationship and any previous engaged. According to our Database, She has no children.

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Elizabeth Nolan Net Worth

Her net worth has been growing significantly in 2023-2024. So, how much is Elizabeth Nolan worth at the age of 46 years old? Elizabeth Nolan’s income source is mostly from being a successful . She is from United States. We have estimated Elizabeth Nolan's net worth, money, salary, income, and assets.

Net Worth in 2024 $1 Million - $5 Million
Salary in 2024 Under Review
Net Worth in 2023 Pending
Salary in 2023 Under Review
House Not Available
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Source of Income

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Timeline

1978

Elizabeth Marie Nolan (born 1978) is an American chemist and associate professor at Massachusetts Institute of Technology.

Nolan was born in Niskayuna, New York.

2000

She studied at Smith College, where she majored in chemistry and graduated magna cum laude in 2000.

During her undergraduate studies she minored in music and worked with Robert Linck on computational chemistry.

She studied the stereoelectronic effects in substituted alkanes.

Nolan was a member of Phi Beta Kappa.

She was awarded a Fulbright Program Scholarship and moved to France to study siderophore-iron complexes.

Nolan moved to Massachusetts Institute of Technology for her graduate studies, where she was supervised by Stephen J. Lippard.

She developed small molecule fluorescent sensors to monitor for zinc in neurobiology and mercury in aqueous solutions.

Together they filed a patent for Fluorescein-based metal sensors.

Nolan was a postdoctoral scientist at the Harvard Medical School, working with Christopher T. Walsh on the biosynthetic assembly of microcin E492m.

Microcin E492m is an antibiotic peptide that can target Gram-negative bacteria which express siderophore transporters.

2010

She was awarded a $2.5 million National Institutes of Health grant in 2010 to study antibacterial peptides and zinc in innate immunity.

2011

In 2011 she contributed to the book Letters to a Young Chemist.

2014

Nolan was appointed as an assistant professor at the department of chemistry at the Massachusetts Institute of Technology in 2014.

She explores the coordination chemistry of metal ions in biological systems; in particular how proteins destroy microbes by denying them metal nutrients.

She looks at the peptides and metalloproteins that are involved in mammalian immune response.

Her current focus is on calprotectins and how they bind metals.

She used magnetic circular dichroism to study the binding of iron to human calprotectin.

Her group look to understand how Neuronal cells process and removes SOD1 point mutants.

Nolan looks to design drugs to fight bacterial infections.

They study how immunity peptides that are encoded by the gene clusters that biosynthesize antibiotics which use metal ion transporters protect the organisms that produce them.

She proposes that hijacking the siderophore uptake pathways could allow new prevention and treatment against diseases.

She worked with Manuela Raffatellu at University of California, Irvine to develop a new immunisation strategy against salmonella.

They target siderophores, a molecule that salmonella secretes to scavenge iron.

Immunisation against siderophores led to the production of antibodies that reduced the growth of salmonella and other bacteria.

She is on the editorial board of Cell Chemical Biology.