Rohit V Pappu
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Explore the profile of Rohit V Pappu including associated specialties, affiliations and a list of published articles.
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188
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13344
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Recent Articles
1.
Ruff K, King M, Ying A, Liu V, Pant A, Lieberman W, et al.
bioRxiv
. 2025 Mar;
PMID: 40060677
Intrinsically disordered regions (IDRs) of proteins are defined by functionally relevant molecular grammars. This refers to IDR-specific non-random amino acid compositions and non-random patterning of distinct pairs of amino acid...
2.
Shinn M, Tomares D, Liu V, Pant A, Qiu Y, Song Y, et al.
bioRxiv
. 2025 Mar;
PMID: 40060583
Nuclear speckles are enriched in serine / arginine rich splicing factors (SRSFs), such as SRSF1. Splicing factors and proteins such as TDP-43 concentrate into distinct speckle territories to enable pre-mRNA...
3.
Hoffmann C, Ruff K, Edu I, Shinn M, Tromm J, King M, et al.
J Mol Biol
. 2025 Feb;
437(8):168987.
PMID: 39947282
Multiple biomolecular condensates coexist at the pre- and post- synapse to enable vesicle dynamics and controlled neurotransmitter release in the brain. In pre-synapses, intrinsically disordered regions (IDRs) of synaptic proteins...
4.
Holla A, Martin E, Dannenhoffer-Lafage T, Ruff K, Konig S, Nuesch M, et al.
JACS Au
. 2024 Dec;
4(12):4729-4743.
PMID: 39735932
It has become increasingly evident that the conformational distributions of intrinsically disordered proteins or regions are strongly dependent on their amino acid compositions and sequence. To facilitate a systematic investigation...
5.
Chauhan G, Farag M, Cohen S, Pappu R
Nat Commun
. 2024 Nov;
15(1):9974.
PMID: 39562556
No abstract available.
6.
Song Y, Shinn M, Bangru S, Wang Y, Sun Q, Hao Q, et al.
bioRxiv
. 2024 Nov;
PMID: 39554052
Hypoxia-induced alternative splicing (AS) regulates tumor progression and metastasis. Little is known about how such AS is controlled and whether higher-order genome and nuclear domain (ND) organizations dictate these processes....
7.
Alshareedah I, Borcherds W, Cohen S, Singh A, Posey A, Farag M, et al.
Nat Phys
. 2024 Oct;
20(9):1482-1491.
PMID: 39464253
Biomolecular condensates are viscoelastic materials. Here, we investigate the determinants of sequence-encoded and age-dependent viscoelasticity of condensates formed by the prion-like low-complexity domain of the protein hnRNP A1 and its...
8.
Posey A, Bremer A, Erkamp N, Pant A, Knowles T, Dai Y, et al.
J Am Chem Soc
. 2024 Oct;
146(41):28268-28281.
PMID: 39356108
Biomolecular condensates form via processes that combine phase separation and reversible associations of multivalent macromolecules. Condensates can be two- or multiphase systems defined by coexisting dense and dilute phases. Here,...
9.
Cohen S, Banerjee P, Pappu R
J Chem Phys
. 2024 Sep;
161(9).
PMID: 39225536
Biomolecular condensates are viscoelastic materials defined by time-dependent, sequence-specific complex shear moduli. Here, we show that viscoelastic moduli can be computed directly using a generalization of the Rouse model that...
10.
Hoffmann C, Ruff K, Edu I, Shinn M, Tromm J, King M, et al.
bioRxiv
. 2024 Aug;
PMID: 39131319
Multiple biomolecular condensates coexist at the pre- and post- synapse to enable vesicle dynamics and controlled neurotransmitter release in the brain. In pre-synapses, intrinsically disordered regions (IDRs) of synaptic proteins...