School of Biological Sciences (SBS)

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7,951 to 7,960 of 10,396 Results

2018-T1-001-096_Final Data.7z.020 May 13, 2023 - Data for Investigating The Protein Phase Behavior In Polarized Fungal Growth By Coarse-Grained Molecular Simulation Unknown - 1.2 GB - MD5: 0162ee5415d891da632535b1f3eefab7
Readme.pdf May 13, 2023 - Data for Investigating The Protein Phase Behavior In Polarized Fungal Growth By Coarse-Grained Molecular Simulation Adobe PDF - 58.1 KB - MD5: 7b883875d3bddc439efbc3c24461a009
Lu Lanyuan(Nanyang Technological University) May 13, 2023 Research Topics: ● Developing computational methods for multiscale modeling of biomolecular systems. ● Coarse-grained simulations of biomembranes, peptides, and proteins.
Lu Lei (Nanyang Technological University) Apr 6, 2023 Research Topics: 1) Membrane trafficking at the Golgi complex 2) Signaling and the membrane trafficking 3) Ciliary targeting mechanism For more information, please visit my Lab's website
A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE Oct 31, 2022 - Guillaume THIBAULT 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 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
20211125 Golden gate PaqCI (processed).tif Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE TIFF Image - 1.9 MB - MD5: 440756bb4954807fab3194034db411f2
20220321 56bp-GFP (no basal gate).wsp Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE Unknown - 69.2 KB - MD5: 6c63f45158476d4edc1cfb6f2521f703
20220321 56bp-GFP (no basal gate).xls Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE MS Excel Spreadsheet - 20.5 KB - MD5: 6caaf836cf1d7b211b462001f995c1db
20220321 56bp-GFP.wsp Oct 31, 2022 - A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE Unknown - 87.4 KB - MD5: 2ae02ade54eb8cb533b7ee22f915b388

2018-T1-001-096_Final Data.7z.020

May 13, 2023 - Data for Investigating The Protein Phase Behavior In Polarized Fungal Growth By Coarse-Grained Molecular Simulation

Unknown - 1.2 GB -

Readme.pdf

May 13, 2023 - Data for Investigating The Protein Phase Behavior In Polarized Fungal Growth By Coarse-Grained Molecular Simulation

Adobe PDF - 58.1 KB -

Lu Lanyuan(Nanyang Technological University)

May 13, 2023

Research Topics: ● Developing computational methods for multiscale modeling of biomolecular systems. ● Coarse-grained simulations of biomembranes, peptides, and proteins.

Lu Lei (Nanyang Technological University)

Apr 6, 2023

Research Topics: 1) Membrane trafficking at the Golgi complex 2) Signaling and the membrane trafficking 3) Ciliary targeting mechanism For more information, please visit my Lab's website

A new combinatorial megaplasmid library assembly method designed to screen for minimal pathways by using SCRaMbLE

Oct 31, 2022 - Guillaume THIBAULT

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

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

TIFF Image - 2.1 MB -

20211125 Golden gate PaqCI (processed).tif

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

TIFF Image - 1.9 MB -

20220321 56bp-GFP (no basal gate).wsp

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

Unknown - 69.2 KB -

20220321 56bp-GFP (no basal gate).xls

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

MS Excel Spreadsheet - 20.5 KB -