PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
28346703-1	2017	The importance of the hydrogen bonding interactions in the GLUT-hexose binding process (GLUT=hexose transporter) has been demonstrated by studying the binding of structurally modified d-fructose analogues to GLUTs, and in one case its transport into cells.	Fructose	184-194	solute carrier family 2 member 1	Homo sapiens	59-63	
2036379-6	1991	In addition, both D-galactose and D-mannose are transported by GLUTs 1-3 at significant rates; furthermore, GLUT 2 is capable of transporting D-fructose.	Fructose	142-152	solute carrier family 2 member 1	Homo sapiens	63-72	
28346703-1	2017	The importance of the hydrogen bonding interactions in the GLUT-hexose binding process (GLUT=hexose transporter) has been demonstrated by studying the binding of structurally modified d-fructose analogues to GLUTs, and in one case its transport into cells.	Fructose	184-194	solute carrier family 2 member 1	Homo sapiens	88-92	
27992462-7	2016	RESULTS: In response to short term changes in extracellular glucose and glucose/fructose concentrations (2.5mM to 75mM) carrier-mediated sugar uptake mediated by SGLT1 and/or the facilitative hexose transporters (GLUT1,2,3 and 5) was increased.	Fructose	80-88	solute carrier family 2 member 1	Homo sapiens	213-228	
20009031-3	2010	Fourteen Glut proteins are expressed in the human and they include transporters for substrates other than glucose, including fructose, myoinositol, and urate.	Fructose	125-133	solute carrier family 2 member 1	Homo sapiens	9-13	
26416735-5	2015	On the basis of a comparison of the inward-facing structures of GLUT5 and human GLUT1, a ubiquitous glucose transporter, we show that a single point mutation is enough to switch the substrate-binding preference of GLUT5 from fructose to glucose.	Fructose	225-233	solute carrier family 2 member 1	Homo sapiens	80-85	
26306809-1	2015	Glucose transporters GLUT1 (transports glucose) and GLUT5 (transports fructose), in addition to their functions in normal metabolism, have been implicated in several diseases including cancer and diabetes.	Fructose	70-78	solute carrier family 2 member 1	Homo sapiens	21-26	
25919770-1	2015	OBJECTIVE: Fructose is absorbed by GLUT transporters in the small intestine.	Fructose	11-19	solute carrier family 2 member 1	Homo sapiens	35-39	
23739630-3	2013	RECENT FINDINGS: Additional GLUT transport mechanisms that regulate fructose absorption might be involved in symptom adaptation to high-fructose diets.	Fructose	68-76	solute carrier family 2 member 1	Homo sapiens	28-32	
23739630-3	2013	RECENT FINDINGS: Additional GLUT transport mechanisms that regulate fructose absorption might be involved in symptom adaptation to high-fructose diets.	Fructose	136-144	solute carrier family 2 member 1	Homo sapiens	28-32	
9889355-1	1999	Glucose and fructose enter mammalian cells via facilitated diffusion, a process regulated by five glucose transporter isoforms (GLUT1-5) at the plasma membrane.	Fructose	12-20	solute carrier family 2 member 1	Homo sapiens	128-135	
16186102-1	2005	Until recently, the only facilitated hexose transporter GLUT proteins (SLC2A) known to transport fructose were GLUTs 2 and 5.	Fructose	97-105	solute carrier family 2 member 1	Homo sapiens	71-76	
8905625-5	1996	Mannose and fructose, but not galactose, prevented the induction of GRP78 and accumulation of the abnormal GLUT1.	Fructose	12-20	solute carrier family 2 member 1	Homo sapiens	107-112	
8058795-6	1994	It is a facilitated transporter with a high affinity for D-glucose (Km = 84.1 +/- 7.9 microM and Vmax = 46 +/- 9.4 nmol/min per mg of protein) that shares with other kinetoplastid hexose transporters the ability to recognize D-fructose, which distinguishes these carriers from the human erythrocyte glucose transporter GLUT1.	Fructose	225-235	solute carrier family 2 member 1	Homo sapiens	319-324