PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
25673751-2	2015	Here, we show that the zinc cluster regulator Znf1 responds to altered nutrient signals following glucose starvation through the direct control of genes involved in non-fermentative metabolism, including those belonged to the central pathways of gluconeogenesis (PCK1, FBP1 and MDH2), glyoxylate shunt (MLS1 and ICL1) and the tricarboxylic acid cycle (ACO1), which is demonstrated by Znf1-binding enrichment at these promoters during the glucose-ethanol shift.	Glucose	98-105	DNA-binding domain containing protein	Saccharomyces cerevisiae S288C	46-50	
25673751-2	2015	Here, we show that the zinc cluster regulator Znf1 responds to altered nutrient signals following glucose starvation through the direct control of genes involved in non-fermentative metabolism, including those belonged to the central pathways of gluconeogenesis (PCK1, FBP1 and MDH2), glyoxylate shunt (MLS1 and ICL1) and the tricarboxylic acid cycle (ACO1), which is demonstrated by Znf1-binding enrichment at these promoters during the glucose-ethanol shift.	Glucose	98-105	DNA-binding domain containing protein	Saccharomyces cerevisiae S288C	384-388	
25673751-2	2015	Here, we show that the zinc cluster regulator Znf1 responds to altered nutrient signals following glucose starvation through the direct control of genes involved in non-fermentative metabolism, including those belonged to the central pathways of gluconeogenesis (PCK1, FBP1 and MDH2), glyoxylate shunt (MLS1 and ICL1) and the tricarboxylic acid cycle (ACO1), which is demonstrated by Znf1-binding enrichment at these promoters during the glucose-ethanol shift.	Glucose	438-445	DNA-binding domain containing protein	Saccharomyces cerevisiae S288C	46-50	
25673751-2	2015	Here, we show that the zinc cluster regulator Znf1 responds to altered nutrient signals following glucose starvation through the direct control of genes involved in non-fermentative metabolism, including those belonged to the central pathways of gluconeogenesis (PCK1, FBP1 and MDH2), glyoxylate shunt (MLS1 and ICL1) and the tricarboxylic acid cycle (ACO1), which is demonstrated by Znf1-binding enrichment at these promoters during the glucose-ethanol shift.	Glucose	438-445	DNA-binding domain containing protein	Saccharomyces cerevisiae S288C	384-388	
34105981-9	2021	Overexpression of ZNF1 not only confers tolerance to high ethanol but also increases ethanol production by 4.6% (8.43 g/L) or 2.8% (75.78 g/L) when using 2% or 20% (w/v) glucose as a substrate, respectively, compared to the wild-type strain.	Glucose	170-177	DNA-binding domain containing protein	Saccharomyces cerevisiae S288C	18-22	
34105981-14	2021	Znf1 transcription factor has been implicated in utilization of different carbon sources, including glucose, the most abundant sugar on earth, and non-fermentable substrates, as a key regulator of glycolysis and gluconeogenesis.	Glucose	100-107	DNA-binding domain containing protein	Saccharomyces cerevisiae S288C	0-4	
32196937-0	2020	Overexpression of Transcription Factor ZNF1 of Glycolysis Improves Bioethanol Productivity Under High Glucose Concentration and Enhances Acetic Acid Tolerance of Saccharomyces Cerevisiae.	Glucose	102-109	DNA-binding domain containing protein	Saccharomyces cerevisiae S288C	39-43	
32196937-3	2020	Specifically, we characterized the role of Znf1 transcription factor in metabolic regulation of glucose.	Glucose	96-103	DNA-binding domain containing protein	Saccharomyces cerevisiae S288C	43-47	
32196937-4	2020	Here, Znf1 was first shown to activate key genes in glycolysis, pyruvate metabolism and alcoholic fermentation when glucose is provided as the sole carbon source.	Glucose	116-123	DNA-binding domain containing protein	Saccharomyces cerevisiae S288C	6-10	
32196937-5	2020	Under conditions of high glucose (20 g/L), overexpression of ZNF1 accelerated glucose consumption with only 0.67-0.80% of glucose remaining after 24 or 36 h of fermentation.	Glucose	25-32	DNA-binding domain containing protein	Saccharomyces cerevisiae S288C	61-65	
32196937-5	2020	Under conditions of high glucose (20 g/L), overexpression of ZNF1 accelerated glucose consumption with only 0.67-0.80% of glucose remaining after 24 or 36 h of fermentation.	Glucose	78-85	DNA-binding domain containing protein	Saccharomyces cerevisiae S288C	61-65	
32196937-5	2020	Under conditions of high glucose (20 g/L), overexpression of ZNF1 accelerated glucose consumption with only 0.67-0.80% of glucose remaining after 24 or 36 h of fermentation.	Glucose	78-85	DNA-binding domain containing protein	Saccharomyces cerevisiae S288C	61-65