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1 hat the effect of sAnk1 is less than that of sarcolipin.
2 rt by generating a mouse model deficient for sarcolipin.
3  homology in its TM amino acid sequence with sarcolipin, a small protein inhibitor of the sarco(endo)
4         In its monomeric form, we found that sarcolipin adopts a helical conformation, with a compute
5 proteins of the calcium ATPase SERCA, namely sarcolipin and phospholamban, in explicit lipid bilayers
6 placing the SERCA inhibitors, phospholamban, sarcolipin, and myoregulin.
7 se to isoproterenol stimulation, implicating sarcolipin as a mediator of beta-adrenergic responses in
8 CA within the first transport cycle, whereas sarcolipin did not.
9                               The absence of sarcolipin does not modify the expression level of other
10          These changes, along with increased sarcolipin expression, provide evidence for the recruitm
11 uorescence analysis confirmed the absence of sarcolipin in normal left ventricles and its marked upre
12 tably by phospholamban in cardiac muscle and sarcolipin in skeletal muscle.
13 vestigated the physiological significance of sarcolipin in the heart by generating a mouse model defi
14 ssociated with beta-adrenergic signaling and sarcolipin in the left ventricles of patients with isola
15                    Our study documented that sarcolipin is a key regulator of SERCA2a in atria.
16                                              Sarcolipin is a novel regulator of cardiac sarcoplasmic
17 late Na(+) ,K(+) -ATPase, and phospholamban, sarcolipin, myoregulin and DWORF, which regulate the sar
18                                          The sarcolipin-null mice do not show any developmental abnor
19                      Furthermore, atria from sarcolipin-null mice showed a blunted response to isopro
20 e evaluated the effects of phospholamban and sarcolipin on calcium translocation and ATP hydrolysis b
21 tylleucine and the integral membrane protein sarcolipin oriented in lipid bicelles.
22               However, how phospholamban and sarcolipin regulate SERCA is not fully understood.
23     An important finding is that ablation of sarcolipin resulted in an increase in atrial Ca2+ transi
24 ies revealed that, in the atria, ablation of sarcolipin resulted in an increase in the affinity of th
25                     This suggests that, like sarcolipin, sAnk1 interacts with SERCA1 at least in part
26 e have detected directly the interactions of sarcolipin (SLN) and the sarcoplasmic reticulum Ca-ATPas
27                      Phospholamban (PLN) and sarcolipin (SLN) are two single-pass membrane proteins t
28 vity is modulated by phospholamban (PLB) and sarcolipin (SLN) in cardiac and skeletal muscle.
29                                  The role of sarcolipin (SLN) in cardiac physiology was critically ev
30                                              Sarcolipin (SLN) is a 31 amino acid integral membrane pr
31                                              Sarcolipin (SLN) is a novel regulator of sarcoplasmic re
32                                              Sarcolipin (SLN) is a regulatory peptide present in sarc
33                                              Sarcolipin (SLN) is an inhibitor of the sarco/endoplasmi
34                                              Sarcolipin (SLN) is an integral membrane protein that is
35 ic reticulum Ca(2+)-ATPase (SERCA)-inhibitor sarcolipin (SLN) is up-regulated >70-fold in nebulin kno
36                                              Sarcolipin (SLN), a 31 amino acid integral membrane prot
37                            Here we show that sarcolipin (Sln), a newly identified regulator of the sa
38                      We recently showed that sarcolipin (SLN), an uncoupler of the sarco(endo)plasmic
39 spholamban (PLB), an affinity modulator, and sarcolipin (SLN), an uncoupler.
40 ic genes [natriuretic peptide type A (Nppa), sarcolipin (Sln), and myosin light polypeptide 4 (Myl4)]
41 onal similarity with phospholamban (PLN) and sarcolipin (SLN), which inhibit SERCA, the membrane pump
42 in 1 (UCP1)-based) and skeletal muscle (i.e. sarcolipin (SLN)-based) thermogenesis processes play imp
43 al membrane proteins phospholamban (PLN) and sarcolipin (SLN).
44 al membrane proteins phospholamban (PLN) and sarcolipin (SLN).
45 mbrane domain in a manner similar to that of sarcolipin (SLN).
46  the unrestrained simulations, the resulting sarcolipin structures are in agreement with distances an
47 osomes containing SERCA and phospholamban or sarcolipin were adsorbed to a solid-supported membrane a
48 culum Ca2+ ATPase (SERCA) regulatory protein sarcolipin, which is predominantly expressed in normal a
49 onment of a small membrane-embedded protein, sarcolipin, which regulates the sarcoplasmic reticulum C

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