Showing 1951 - 1960 of 2040 Items
Metabolic inhibitors of bacterial glycan biosynthesis
Date: 2020-02-21
Creator: Daniel A. Williams
Kabita Pradhan
Ankita Paul
Ilana R. Olin
Owen T., Tuck
Karen D. Moulton
Suvarn S. Kulkarni
Danielle H. Dube
Access: Open access
- The bacterial cell wall is a quintessential drug target due to its critical role in colonization of the host, pathogen survival, and immune evasion. The dense cell wall glycocalyx contains distinctive monosaccharides that are absent from human cells, and proper assembly of monosaccharides into higher-order glycans is critical for bacterial fitness and pathogenesis. However, the systematic study and inhibition of bacterial glycosylation enzymes remains challenging. Bacteria produce glycans containing rare deoxy amino sugars refractory to traditional glycan analysis, complicating the study of bacterial glycans and the creation of glycosylation inhibitors. To ease the study of bacterial glycan function in the absence of detailed structural or enzyme information, we crafted metabolic inhibitors based on rare bacterial monosaccharide scaffolds. Metabolic inhibitors were assessed for their ability to interfere with glycan biosynthesis and fitness in pathogenic and symbiotic bacterial species. Three metabolic inhibitors led to dramatic structural and functional defects in Helicobacter pylori. Strikingly, these inhibitors acted in a bacteria-selective manner. These metabolic inhibitors will provide a platform for systematic study of bacterial glycosylation enzymes not currently possible with existing tools. Moreover, their selectivity will provide a pathway for the development of novel, narrow-spectrum antibiotics to treat infectious disease. Our inhibition approach is general and will expedite the identification of bacterial glycan biosynthesis inhibitors in a range of systems, expanding the glycochemistry toolkit.
Synoptic assessment of coastal total alkalinity through community science
Date: 2021-02-01
Creator: J. E. Rheuban
P. R. Gassett
D. C. McCorkle
C. W. Hunt
M., Liebman
C. Bastidas
K. O’Brien-Clayton
A. R. Pimenta
E. Silva
P. Vlahos
R. J. Woosley
J. Ries
C. M. Liberti
J. Grear
J. Salisbury
D. C. Brady
K. Guay
M. LaVigne
A. L. Strong
E. Stancioff
E. Turner
Access: Open access
- Comprehensive sampling of the carbonate system in estuaries and coastal waters can be difficult and expensive because of the complex and heterogeneous nature of near-shore environments. We show that sample collection by community science programs is a viable strategy for expanding estuarine carbonate system monitoring and prioritizing regions for more targeted assessment. ‘Shell Day’ was a single-day regional water monitoring event coordinating coastal carbonate chemistry observations by 59 community science programs and seven research institutions in the northeastern United States, in which 410 total alkalinity (TA) samples from 86 stations were collected. Field replicates collected at both low and high tides had a mean standard deviation between replicates of 3.6 ± 0.3 µmol kg (σ ± SE, n = 145) or 0.20 ± 0.02%. This level of precision demonstrates that with adequate protocols for sample collection, handling, storage, and analysis, community science programs are able to collect TA samples leading to high-quality analyses and data. Despite correlations between salinity, temperature, and TA observed at multiple spatial scales, empirical predictions of TA had relatively high root mean square error >48 µmol kg . Additionally, ten stations displayed tidal variability in TA that was not likely driven by low TA freshwater inputs. As such, TA cannot be predicted accurately from salinity using a single relationship across the northeastern US region, though predictions may be viable at more localized scales where consistent freshwater and seawater endmembers can be defined. There was a high degree of geographic heterogeneity in both mean and tidal variability in TA, and this single-day snapshot sampling identified three patterns driving variation in TA, with certain locations exhibiting increased risk of acidification. The success of Shell Day implies that similar community science based events could be conducted in other regions to not only expand understanding of the coastal carbonate system, but also provide a way to inventory monitoring assets, build partnerships with stakeholders, and expand education and outreach to a broader constituency. − 1 − 1 mean
Statement by Dale Hamilton collected by Charlotte Bacon on June 26, 2014
Date: 2014-06-26
Creator: Dale Hamilton
Access: Open access
Statement by Roger Bernard collected by Erika Bjorum on October 25, 2018
Date: 2018-10-25
Creator: Roger Bernard
Access: Open access
- This statement was given privately.
Statement by Anonymous (Paula) collected by Erika Bjorum on October 9, 2018 [part 2]
Date: 2018-10-09
Creator: Anonymous (Paula)
Access: Open access
- Transcription of statement includes parts 1 and 2, recorded on October 5 and October 9, 2018. This statement was given privately.
Statement by Deborah Yarmal collected by Rachel George on November 19, 2013
Date: 2013-11-19
Creator: Deborah Yarmal
Access: Open access
Statement by Bruce Mallonee collected by Rachel George on November 21, 2014
Date: 2014-11-21
Creator: Bruce Mallonee
Access: Open access
Statement by Penthea Burns collected by Rachel George on November 18, 2014
Date: 2014-11-18
Creator: Penthea Burns
Access: Open access
Statement by Betty Joseph collected by Rachel George on April 23, 2015
Date: 2015-04-23
Creator: Betty Joseph
Access: Open access
Statement by Susan Burgess collected by Rachel George on June 26, 2014
Date: 2014-06-26
Creator: Susan Burgess
Access: Open access