Hemanth Tummala
@tummalalab.bsky.social
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Patho Genetic mechanisms of inherited bone marrow failure syndromes and cancer @TBDlabs
reposted by
Hemanth Tummala
Vijay G. Sankaran
about 1 month ago
Delighted to have our work on 🧬 resilience to 🩸cancer led by
@g-agarwal.bsky.social
& amazing collaborators, including
@kharaslab.bsky.social
, published in
@science.org
:
www.science.org/doi/10.1126/...
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reposted by
Hemanth Tummala
Vijay G. Sankaran
8 months ago
Delighted to have our work on Polygenic Modifiers of
#TelomereBiologyDisorders
, led by Michael Poeschla,
@sashagusevposts.bsky.social
,
@mitchiela.bsky.social
,
@sharonsavage.bsky.social
,
@tummalalab.bsky.social
, + co, published in
@jclinical-invest.bsky.social
today:
www.jci.org/articles/vie...
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An excellent collaboration between
@bloodgenes.bsky.social
@telomeredoc.bsky.social
& our lab reveal how common genetic variants shape disease outcomes in rare telomere biology disorders. A powerful step toward unravelling phenotypic variability in monogenic disease.
@dcaction.bsky.social
add a skeleton here at some point
8 months ago
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More insights on nucleotide metabolism pathway in regulation of telomere length. Fabulous work by William Mannherz from Suneet Agarwal's lab
www.nature.com/articles/s41...
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Metabolic constraint of human telomere length by nucleotide salvage efficiency - Nature Communications
Telomere length is tightly controlled in normal cellular function and the human population. Here, the authors reveal that telomere synthesis is bidirectionally constrained by cellular nucleotide pools...
https://www.nature.com/articles/s41467-025-58221-7
11 months ago
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reposted by
Hemanth Tummala
Rakyan Lab
about 1 year ago
London SE17.
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