about
Molecular and cellular mechanisms of neutral lipid accumulation in diatom following nitrogen deprivationThe pivotal role of malic enzyme in enhancing oil accumulation in green microalga Chlorella pyrenoidosaProteomics to reveal metabolic network shifts towards lipid accumulation following nitrogen deprivation in the diatom Phaeodactylum tricornutumReporter gene assay for detection of shellfish toxins.Occurrence of plastidial triacylglycerol synthesis and the potential regulatory role of AGPAT in the model diatom Phaeodactylum tricornutumAntisense knockdown of pyruvate dehydrogenase kinase promotes the neutral lipid accumulation in the diatom Phaeodactylum tricornutumBiochemical and genetic engineering of diatoms for polyunsaturated fatty acid biosynthesisQUASIMODO 3 (QUA3) is a putative homogalacturonan methyltransferase regulating cell wall biosynthesis in Arabidopsis suspension-cultured cells.Strong seed-specific protein expression from the Vigna radiata storage protein 8SGα promoter in transgenic Arabidopsis seeds.Acyl-CoA-binding protein 2 binds lysophospholipase 2 and lysoPC to promote tolerance to cadmium-induced oxidative stress in transgenic Arabidopsis.Functional characterization of an ACCase subunit from the diatom Phaeodactylum tricornutum expressed in Escherichia coli.P-glycoprotein expression in Perna viridis after exposure to Prorocentrum lima, a dinoflagellate producing DSP toxins.Delta 5 fatty acid desaturase upregulates the synthesis of polyunsaturated fatty acids in the marine diatom Phaeodactylum tricornutum.Enrichment of Long-Chain Polyunsaturated Fatty Acids by Coordinated Expression of Multiple Metabolic Nodes in the Oleaginous Microalga Phaeodactylum tricornutum.Genetic improvement of the microalga Phaeodactylum tricornutum for boosting neutral lipid accumulation.A Vigna radiata 8S globulin α' promoter drives efficient expression of GUS in Arabidopsis cotyledonary embryos.Systems-level analysis of the metabolic responses of the diatom Phaeodactylum tricornutum to phosphorus stress.High-efficiency promoter-driven coordinated regulation of multiple metabolic nodes elevates lipid accumulation in the model microalga Phaeodactylum tricornutum.The role of diatom glucose-6-phosphate dehydrogenase on lipogenic NADPH supply in green microalgae through plastidial oxidative pentose phosphate pathwayConstitutive and Chloroplast Targeted Expression of Acetyl-CoA Carboxylase in Oleaginous Microalgae Elevates Fatty Acid BiosynthesisOverproduction of Bioactive Algal Chrysolaminarin by the Critical Carbon Flux Regulator PhosphoglucomutaseTransformation of diatom Phaeodactylum tricornutum by electroporation and establishment of inducible selection markerTranscriptional regulation of microalgae for concurrent lipid overproduction and secretionAdaptive evolution of microalgal strains empowered by fulvic acid for enhanced polyunsaturated fatty acid productionEnhanced polyunsaturated fatty acid production using food wastes and biofuels byproducts by an evolved strain of Phaeodactylum tricornutumEthanol induced jasmonate pathway promotes astaxanthin hyperaccumulation in Haematococcus pluvialisPotentiation of concurrent expression of lipogenic genes by novel strong promoters in the oleaginous microalga Phaeodactylum tricornutumGlucose-6-Phosphate Dehydrogenase from the Oleaginous Microalga Nannochloropsis Uncovers Its Potential Role in Promoting LipogenesisAuxiliary antitumor effects of fungal proteins from Hericium erinaceus by target on the gut microbiota
P50
Q21202052-5623F9EC-07B1-47C5-8164-18FF1DDB539AQ28596658-FAE25026-1D5A-4259-84C6-2147A6B460AEQ28659342-43BD5454-FC4B-4D67-A04C-AAE38082AA3EQ33531873-195E00A9-0499-458A-BF15-29543A166BBCQ33582472-076D5FF5-82B3-40B1-9BD6-EDAA7EA6C05FQ34610313-4AC5036E-00B1-4E96-99EE-B1B8361CC967Q37566192-7E407B94-775C-43A1-9073-18EF96F6B2C1Q38699925-ACAFFF28-9BAA-4FB8-AD45-47235C30AFAEQ42238603-5C32C51D-D1C9-49E1-B4F5-79F2384A68E4Q43117464-6C370F2D-1239-468A-9AD6-0063420AD657Q43760464-B14D4680-CC6F-46D3-8902-C581D6F398BFQ45050195-CACFC76B-C7BA-46DB-A75D-A2F29134A5A5Q46854229-03BF3217-1072-4D68-9946-BF82250824DFQ47909020-AFA6899F-8267-4EC2-97BA-69C074762421Q50456314-2F7F61D6-E05C-4040-99A1-3AF1509CE1A0Q50479027-4EC0E87A-2E40-4A32-BEE8-9857006B08ECQ50480242-E451C744-61D9-4489-B9E0-F3665CD0A32AQ52331966-CFEC1538-707F-4F60-8289-81E359CDC4E3Q58763819-686D8E1D-CDCA-4BBC-942B-B058CC8668AEQ58763821-D18EB0D0-7D4A-440B-AD91-F0A9F0B60968Q58763825-C46F5432-7446-41B4-AFBD-509EB85F54D5Q58763880-38EF416B-6591-43C2-839C-A681713ABB7EQ61806567-5ACD6E06-1631-4DA0-8BBC-70933EC5B7CFQ90987753-E73286FE-8813-420F-A584-C14A7B58B1A7Q91215812-B30DF3DF-850A-44A6-96D4-F9EF2D112FBAQ91609307-28C054C0-1F80-4F48-88FB-9E9D3BDF46FCQ91701867-72FB1C8A-81A4-4E83-90B1-8583E0277E75Q92973873-54D16DE7-5EAD-43F1-9849-4656B8F7CB35Q95925585-6E2246E1-3052-420F-A18C-083A8661E70E
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Hong-Ye Li
@ast
Hong-Ye Li
@en
Hong-Ye Li
@es
Hong-Ye Li
@fr
Hong-Ye Li
@nl
Hong-Ye Li
@sl
type
label
Hong-Ye Li
@ast
Hong-Ye Li
@en
Hong-Ye Li
@es
Hong-Ye Li
@fr
Hong-Ye Li
@nl
Hong-Ye Li
@sl
altLabel
Hongye Li 李宏业
@en
prefLabel
Hong-Ye Li
@ast
Hong-Ye Li
@en
Hong-Ye Li
@es
Hong-Ye Li
@fr
Hong-Ye Li
@nl
Hong-Ye Li
@sl
P1053
A-5375-2011
P106
P1153
51061323000
P31
P3829
P496
0000-0001-7427-0706