PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
10498802-1	1999	It is known that ternary complexes of myosin subfragment 1 (S1) with ADP and the Pi analogs beryllium fluoride (BeFx) and aluminum fluoride (AlF4-) are stable analogs of the myosin ATPase intermediates M* x ATP and M** x ADP x Pi, respectively.	aluminum fluoride	122-139	myosin heavy chain 14	Homo sapiens	38-44	
12359072-3	2002	We have previously demonstrated that, in the presence of ADP, myosin forms stable ternary complexes with new phosphate analogues of aluminum fluoride (AlF(4)(-)) and beryllium fluoride (BeF(n)), and these stable complexes mimic the transient state along the ATPase kinetic pathway [Maruta et al.	aluminum fluoride	132-149	myosin heavy chain 14	Homo sapiens	62-68	
10498802-1	1999	It is known that ternary complexes of myosin subfragment 1 (S1) with ADP and the Pi analogs beryllium fluoride (BeFx) and aluminum fluoride (AlF4-) are stable analogs of the myosin ATPase intermediates M* x ATP and M** x ADP x Pi, respectively.	aluminum fluoride	122-139	myosin heavy chain 14	Homo sapiens	174-180	
8714460-1	1996	This short review is concerned with the application of the method of differential scanning calorimetry to study the conformational changes of isolated myosin head (myosin subfragment 1, S1) caused by the formation of the S1 complexes with Mg(2+)-ADP and P(i) analogues such as orthovanadate (V), aluminium fluoride (AIF4-) or beryllium fluoride (BeFx).	aluminum fluoride	296-314	myosin heavy chain 14	Homo sapiens	151-157	
9526129-3	1998	Data are presented on the conformational changes which occur in the myosin head and in F-actin due to the formation of the ternary complexes with ADP and Pi analogs (such as orthovanadate, beryllium fluoride, or aluminum fluoride).	aluminum fluoride	212-229	myosin heavy chain 14	Homo sapiens	68-74	
9722668-1	1998	Myosin forms stable ternary complexes with Mg2+-ADP and phosphate analogues of aluminum fluoride (AlF4-), beryllium fluoride (BeFn), and scandium fluoride (ScFn).	aluminum fluoride	79-96	myosin heavy chain 14	Homo sapiens	0-6	
8714460-1	1996	This short review is concerned with the application of the method of differential scanning calorimetry to study the conformational changes of isolated myosin head (myosin subfragment 1, S1) caused by the formation of the S1 complexes with Mg(2+)-ADP and P(i) analogues such as orthovanadate (V), aluminium fluoride (AIF4-) or beryllium fluoride (BeFx).	aluminum fluoride	296-314	myosin heavy chain 14	Homo sapiens	164-170	
7918418-0	1994	Orientation and dynamics of myosin heads in aluminum fluoride induced pre-power stroke states: an EPR study.	aluminum fluoride	44-61	myosin heavy chain 14	Homo sapiens	28-34