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71 to 80 of 1,408 Results
Run 2.eds
Dec 9, 2025 - Enterococcus faecalis redox metabolism activates the unfolded protein response to impair wound healing
Unknown - 2.0 MB - MD5: 68a1911443076bd77ce0de8af295b460
Run 3.eds
Dec 9, 2025 - Enterococcus faecalis redox metabolism activates the unfolded protein response to impair wound healing
Unknown - 2.2 MB - MD5: 2c955339bb8b2fb18f30cc3e31f264d8
Runs 2-3.eds
Dec 9, 2025 - Enterococcus faecalis redox metabolism activates the unfolded protein response to impair wound healing
Unknown - 2.0 MB - MD5: b01ab1912b8ddb9c677d3c00300dd297
Runs 2-3 qPCR analysis.tab
Dec 9, 2025 - Enterococcus faecalis redox metabolism activates the unfolded protein response to impair wound healing
Tabular Data - 11.4 KB - 33 Variables, 76 Observations - UNF:6:n8I1ZMFUiTkrOZR+maO7pg==
Scratch Wound General V15 10x.cpproj
Dec 9, 2025 - Enterococcus faecalis redox metabolism activates the unfolded protein response to impair wound healing
Unknown - 1.2 MB - MD5: 58f6a832b730639a905b2965b10275cc
Summary.tab
Dec 9, 2025 - Enterococcus faecalis redox metabolism activates the unfolded protein response to impair wound healing
Tabular Data - 110.8 KB - 122 Variables, 48 Observations - UNF:6:+lsG6UTNmbiCH2h3BDs26g==
Transposon screen summary.tab
Dec 9, 2025 - Enterococcus faecalis redox metabolism activates the unfolded protein response to impair wound healing
Tabular Data - 2.8 MB - 21 Variables, 15885 Observations - UNF:6:PvcTjEfo1EEdWjvJYLKOoA==
Xbp1s quantification.tab
Dec 9, 2025 - Enterococcus faecalis redox metabolism activates the unfolded protein response to impair wound healing
Tabular Data - 2.0 KB - 32 Variables, 10 Observations - UNF:6:xtlEThxghd/70Ui1Zjjv4A==
A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE
A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE
Oct 31, 2022
Thibault, Guillaume; Yap, Wei Sheng, 2022, "A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE", https://doi.org/10.21979/N9/XKMAEX, DR-NTU (Data), V1, UNF:6:5KJyBwAUciUBv92jsbfKDg== [fileUNF]
Human proteins expressed in yeast are common to enhance protein production while the expression of functional human pathways remain challenging. Here, we propose a simple and economical high-throughput gene assembly method to create a yeast megaplasmid library from human cDNA to...
20211118 Test PaqCI NNNN TCGA (processed).tif
20211118 Test PaqCI NNNN TCGA (processed).tif
Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE
TIFF Image - 2.1 MB - MD5: f61adb46b656d0a8ee646ff02cd7a9f1
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