School of Biological Sciences (SBS)

This dataverse is a collection of the School of Biological Sciences’ research data.

Featured Dataverses

In order to use this feature you must have at least one published dataverse.

Publish Dataverse

Are you sure you want to publish your dataverse? Once you do so it must remain published.

Publish Dataverse

This dataverse cannot be published because the dataverse it is in has not been published.

Delete Dataverse

Are you sure you want to delete your dataverse? You cannot undelete this dataverse.

7,961 to 7,970 of 10,360 Results

Yeast_neg_001.fcs Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE FCS Data - 314.6 KB - MD5: 45ef56a37f59a93e7534b50aa645fd62
Yeast_neg_001.fcs Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE FCS Data - 314.6 KB - MD5: 41602cae4a70c4b8a8e6d33b7c02a170
Yeast_TATA-TSS_002.fcs Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE FCS Data - 314.7 KB - MD5: b199b3336367eae66d277dabea86eb0f
Yeast_TATA-TSS_002.fcs Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE FCS Data - 314.7 KB - MD5: 759d534c4a57e08ee570822c8746af4b
Yeast_TATA-TSS (56bp)_003.fcs Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE FCS Data - 314.7 KB - MD5: a3b76103a9b77f4ea7bc2a7b76644946
Yeast_UASc-TATA-TSS_003.fcs Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE FCS Data - 314.7 KB - MD5: 4936904690d9ea307763bce1cf71ec90
Yeast_UASc-TATA-TSS_003.fcs Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE FCS Data - 315.0 KB - MD5: c79c3ee5b81a787772ae2e78edc15857
Yeast_YGT1306 (ev)_001.fcs Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE FCS Data - 314.7 KB - MD5: 9b19703732589e384f62d3b1de987f02
Yeast_YGT1711 (UASc)_002.fcs Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE FCS Data - 314.7 KB - MD5: 875c725d2b79076eaf43267f336b50c6
Replication Data for: The unfolded protein response reverses the effects of glucose on lifespan in chemically-sterilized C. elegans Sep 27, 2022 - Guillaume THIBAULT Thibault, Guillaume; Beaudoin-Chabot, Caroline; Wang, Lei; Celik, Cenk; Khalid, Aishah Abdul; Thalappilly, Subhash; Koh, Jhee Hong; Xu, Shiyi; Lim, Venus Wen Xuan; Low, Ann Don, 2022, "Replication Data for: The unfolded protein response reverses the effects of glucose on lifespan in chemically-sterilized C. elegans", https://doi.org/10.21979/N9/GEPEAG, DR-NTU (Data), V1, UNF:6:bDcV8UXFkGMeff3EFRkBYA== [fileUNF] Metabolic diseases often share common traits, including accumulation of unfolded proteins in the endoplasmic reticulum (ER). Upon ER stress, the unfolded protein response (UPR) is activated to limit cellular damage which weakens with age. Here, we show that Caenorhabditis elegans...

Yeast_neg_001.fcs

Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE

FCS Data - 314.6 KB -

Yeast_neg_001.fcs

Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE

FCS Data - 314.6 KB -

Yeast_TATA-TSS_002.fcs

Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE

FCS Data - 314.7 KB -

Yeast_TATA-TSS_002.fcs

Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE

FCS Data - 314.7 KB -

Yeast_TATA-TSS (56bp)_003.fcs

Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE

FCS Data - 314.7 KB -

Yeast_UASc-TATA-TSS_003.fcs

Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE

FCS Data - 314.7 KB -

Yeast_UASc-TATA-TSS_003.fcs

Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE

FCS Data - 315.0 KB -

Yeast_YGT1306 (ev)_001.fcs

Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE

FCS Data - 314.7 KB -

Yeast_YGT1711 (UASc)_002.fcs

Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE

FCS Data - 314.7 KB -

Replication Data for: The unfolded protein response reverses the effects of glucose on lifespan in chemically-sterilized C. elegans

Sep 27, 2022 - Guillaume THIBAULT

Thibault, Guillaume; Beaudoin-Chabot, Caroline; Wang, Lei; Celik, Cenk; Khalid, Aishah Abdul; Thalappilly, Subhash; Koh, Jhee Hong; Xu, Shiyi; Lim, Venus Wen Xuan; Low, Ann Don, 2022, "Replication Data for: The unfolded protein response reverses the effects of glucose on lifespan in chemically-sterilized C. elegans", https://doi.org/10.21979/N9/GEPEAG, DR-NTU (Data), V1, UNF:6:bDcV8UXFkGMeff3EFRkBYA== [fileUNF]

Metabolic diseases often share common traits, including accumulation of unfolded proteins in the endoplasmic reticulum (ER). Upon ER stress, the unfolded protein response (UPR) is activated to limit cellular damage which weakens with age. Here, we show that Caenorhabditis elegans...

Add Data

Share Dataverse

Link Dataverse

Reset Modifications