Daniel D Sprockett

Overview

Explore the profile of Daniel D Sprockett including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 16

Citations 91

Followers 0

Related Specialties

Biology

Microbiology

Science

Top 10 Co-Authors

Andrew H Moeller

Jon G Sanders

Samantha L Goldman

Abigail Landers

Brian A Dillard

Lucie M Michel

David A Relman

Adam M Greenstein

Michael J Sheehan

Caleb C Vogt

Published In

Nat Commun

BMC Biol

bioRxiv

Gene

Nat Microbiol

Affiliations

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Recent Articles

11.

Widespread extinctions of co-diversified primate gut bacterial symbionts from humans

Sanders J, Sprockett D, Li Y, Mjungu D, Lonsdorf E, Ndjango J, et al.

Nat Microbiol . 2023 May; 8(6):1039-1050. PMID: 37169918

Humans and other primates harbour complex gut bacterial communities that influence health and disease, but the evolutionary histories of these symbioses remain unclear. This is partly due to limited information...

12.

Influential factors of saliva microbiota composition

Wells P, Sprockett D, Bowyer R, Kurushima Y, Relman D, Williams F, et al.

Sci Rep . 2022 Nov; 12(1):18894. PMID: 36344584

The oral microbiota is emerging as an influential factor of host physiology and disease state. Factors influencing oral microbiota composition have not been well characterised. In particular, there is a...

13.

Microbiomes: Infant Chimps Crawling with Bacteria

Sprockett D, Moeller A

Curr Biol . 2021 Feb; 31(3):R124-R126. PMID: 33561409

Human guts are colonized at birth by a limited set of microbes that gradually increases in diversity throughout infancy. A new study reports the opposite pattern in infant chimpanzees, raising...

14.

Microbiota assembly, structure, and dynamics among Tsimane horticulturalists of the Bolivian Amazon

Sprockett D, Martin M, Costello E, Burns A, Holmes S, Gurven M, et al.

Nat Commun . 2020 Jul; 11(1):3772. PMID: 32728114

Selective and neutral forces shape human microbiota assembly in early life. The Tsimane are an indigenous Bolivian population with infant care-associated behaviors predicted to increase mother-infant microbial dispersal. Here, we...

15.

Comparison of pectin-degrading fungal communities in temperate forests using glycosyl hydrolase family 28 pectinase primers targeting Ascomycete fungi

Gacura M, Sprockett D, Heidenreich B, Blackwood C

J Microbiol Methods . 2016 Feb; 123:108-13. PMID: 26899925

Fungi have developed a wide assortment of enzymes to break down pectin, a prevalent polymer in plant cell walls that is important in plant defense and structure. One enzyme family...

16.

Use of 16S rRNA sequencing and quantitative PCR to correlate venous leg ulcer bacterial bioburden dynamics with wound expansion, antibiotic therapy, and healing

Sprockett D, Ammons C, Tuttle M

Wound Repair Regen . 2015 Apr; 23(5):765-71. PMID: 25902876

Clinical diagnosis of infection in chronic wounds is currently limited to subjective clinical signs and culture-based methods that underestimate the complexity of wound microbial bioburden as revealed by DNA-based microbial...

17.

Evolutionary analysis of glycosyl hydrolase family 28 (GH28) suggests lineage-specific expansions in necrotrophic fungal pathogens

Sprockett D, Piontkivska H, Blackwood C

Gene . 2011 Mar; 479(1-2):29-36. PMID: 21354463

Glycosyl hydrolase family 28 (GH28) is a set of structurally related enzymes that hydrolyze glycosidic bonds in pectin, and are important extracellular enzymes for both pathogenic and saprotrophic fungi. Yet,...