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1 ally measured degrees of freedom and subunit rotation.
2 bond interactions in restraining amino-group rotation.
3 nnels uniquely encodes every translation and rotation.
4 ime as for the conventional-herbicide 2-year rotation.
5 transverse movement, likely produced via yaw rotation.
6 2O/Cu interface with concomitant Cu2O island rotation.
7 ated glutamate, resulting in net directional rotation.
8 tate switches in the direction of collective rotation.
9  conformational changes that drive flagellar rotation.
10  field amplitude and polarization state upon rotation.
11  pathway: excited-state trans-to-cis polyene rotation.
12 rounding, which enables unobstructed spindle rotation.
13 reaking of time-reversal symmetry by Earth's rotation.
14      Each subtype ensemble is also tuned for rotation.
15 stight environment is maintained even during rotation.
16 ary is favorable compared to further lattice rotation.
17 ion regardless of the degree of crystal axis rotation.
18 ble for magnetic field detection via Faraday rotation.
19 osite sides of the ring showed similar small rotations.
20 n cloud cover variations over a total of 192 rotations.
21 ichroism spectra and of the specific optical rotations.
22 as an area displaying at least 3 consecutive rotations.
23 ntity-preserving transformations, like depth rotations [1, 2].
24  endoderm is internalised as part of vegetal rotation, a large-scale movement that encompasses the wh
25 nterplanar angle between chromophores, since rotation about sigma bonds negligibly affects the orbita
26      Aqua ligands can undergo rapid internal rotation about the M-O bond.
27 dine ring flip and not nitrogen inversion or rotation about the N-O bond.
28                                      For FA, rotation about the N...N axis, which reorients the molec
29 ocation of the phenyl group and the angle of rotation about the Si-CPh bond (axi and axo denote the P
30  this mixed sensitivity underlay a tuning to rotations about an axis defined relative to gravity.
31                                       For 2, rotations about the pentiptycene-carbonyl bond (the alph
32 dition, neither solvent polarity nor radical rotation affects the correlation between FcP and the mic
33 H(+) across the membrane to induce clockwise rotation against the force of counterclockwise rotation
34 etic spin resonance (EPR), we show that this rotation aligns the two membrane-binding regions in the
35 tions of the transport domain (55 degrees in rotation and 8 A in translation) lead to access of the s
36 channels and existing in the state of steady rotation and amplitude.
37 m a 2000-year chronosequence of a rice-wheat rotation and an adjacent non-paddy 700-year chronosequen
38 deer in response to annual variation in crop rotation and climatic conditions.
39 lar to non-uniform grain growth due to grain rotation and coalescence rather than the thermally and t
40                           As expected, short rotation and fast-growing biomass plantations produced l
41 ntional diffusive rotation to superdiffusive rotation and further to a ballistic rotation was observe
42             Product formation occurs by bond rotation and H-transfer.
43 hese domains resulting in local polarization rotation and hence impart a mixed Neel-Bloch-like charac
44 ficant role in preventing excessive external rotation and hyperextension of the knee.
45  to the aqua ligand can reduce this internal rotation and increase relaxivity.
46 c cycles varying systematically with stellar rotation and luminosity.
47 his work, a combination of (1)H NMR combined rotation and multiple pulse spectroscopy (CRAMPS), water
48 s were impaired to the same extent in the No-Rotation and Rotation tasks after matching for difficult
49  by mule deer because of variability in crop rotation and success of germination of specific crops.
50 ility of the flagellum under reversal of the rotation and the applied torque.
51 e linkers provide control over the degree of rotation and thus the critical window diameter.
52 O7 at the surface are intimately tied to the rotation and tilt of the RuO6 octahedra.
53 sly measure the relationship between subunit rotation and translocation, it is necessary to rationali
54 t rotations (p < 0.05), number of re-entrant rotations and focal events (p < 0.05), and number of reg
55 ) and 3(2-) retain the geared alpha and beta rotations and follow a fast-slow-stop mode for 3-3(*-)-3
56             Access to international surgical rotations and medical information.
57 mplitudes of the Tsr HAMP coupled with helix rotations and movements toward a two-helix packing mode.
58 ses during active and passive head and trunk rotations and translations.
59                                 Single-qubit rotations and two-qubit CNOT operations are crucial ingr
60 ut the pentiptycene-carbonyl bond (the alpha rotation) and about the aryl-carbonyl bond (the beta rot
61 ed by assuming rigid motion (translation and rotation) and appropriate correction was applied.
62 stackings that are determined by the number, rotation, and location of the dislocations.
63 three diverse conditions: surgical plugging, rotation, and mechanical indentation.
64 es subtle structural changes, such as ligand rotation, and mediates host-guest interactions.
65 dynamic drag on the chiral cell shape caused rotation, and the predicted geometry of the resulting sw
66 vel functionalities, such as cloaking, field rotations, and concentration effects.
67 in the 'fine phi-slicing' mode (in which the rotation angle per image is less than the crystal mosaic
68 ignificant dependence on the bifurcation and rotation angles in several scenarios using different ves
69 ferent orientations, bifurcation angles, and rotation angles.
70 attern of retinal image motion (optic flow), rotation another.
71 n-on-insulator (SOI) isolators using Faraday Rotation are here realized to fill the 'missing link' in
72                                Consequently, rotations are greater for surface breaking particles tha
73 h rolling (cooperative) and sliding particle rotations are observed.
74 e non-chiral, we show that right-handed spin rotations are strongly favoured in this system, due to t
75 ) and about the aryl-carbonyl bond (the beta rotation) are independent, and the rotation barriers are
76 he (ortho-tolyl)amide unit offers restricted rotation around an N-aryl bond.
77 photoisomerization of C2-C3 is followed by a rotation around C3-C4 and a subsequent thermal cyclizati
78 feature a significantly decreased barrier to rotation around the amide N-C(O) bond.
79 eep brain stimulation in the striatum caused rotation around the body-axis, and stimulation near the
80 redicted by molecular modeling calculations, rotation around the bond connecting the quinazolin-4(3H)
81 ns to determine the both complexes have free rotation around the CPh-B1 bond.
82 ter at C(2) via "the N(1)-C(2) bond cleavage/rotation around the N-C single bond/1,6-cyclization" seq
83  silence their predicted visual responses to rotations around the relevant axis while preserving sens
84                              Single-molecule rotation assays indicated that the introduction of this
85 ex that regulates the direction of flagellar rotation assume either 34 or 25 copies of the protein
86  an Inconel 625 alloy electrocatalyst during rotation at 1600 rpm.
87 ed to both, the restriction of the molecular rotation at low temperatures and the flexibility of the
88                                              Rotation at the intramandibular joint (IMJ), but not the
89 ction of the magnetic moment in the plane of rotation at the metamagnetic transition.
90  Mollisols from ecosystems under C3/C4 plant rotations at moisture levels at and above field capacity
91 ng on rapid changes in the pitch angle (wing rotation) at the end of each half-stroke, and they are t
92 ir gaze-stability reflexes along the primary rotation axis of the turn.
93 proximately 30 degrees away from the orbital rotation axis, which avoids both obscuration from the he
94 ggested that the 30S body undergoes a single rotation/back-rotation cycle during the process of mRNA-
95 nd the pentiptycene groups with a much lower rotation barrier of 6.5 kcal mol(-1) at 298 K in spite o
96 (the beta rotation) are independent, and the rotation barriers are 11.3 and 9.5 kcal mol(-1), respect
97 f grain boundaries with a large crystal axis rotation between neighbouring grains.
98  that the donor nuclear spin drives coherent rotations between the electronic qubit states through th
99 nal image motion with signals related to eye rotation, but the neurobiological mechanisms have remain
100 tonated in a manner that halts ATPase-driven rotation by blocking ATPase-dependent proton pumping.
101                                   Pore helix rotation by STIM1 also explains the dynamic coupling bet
102 e a levitated object rapidly and the rate of rotation can be controlled by the source amplitude.
103              We show that the polarization's rotation can be explained by an optical splitting parame
104 polarization conversion and the polarization rotation can be flexibly applied in various applications
105 on when a gradual increase in the visuomotor rotation caused movements to be changing, or after each
106 an operate as multimodal sensors for strain, rotation, contact force, or contact location.
107 ation of tissue tectonics showed patterns of rotations, contractions and expansions, which are consis
108 t intrachain interactions and dihedral angle rotation correlate with the presence of internal frictio
109 while swimming, with more rapid longitudinal rotation correlating with swimming path directionality.
110                               Here we report rotation curves (showing rotation velocity as a function
111 he 30S body undergoes a single rotation/back-rotation cycle during the process of mRNA-tRNA transloca
112                       Comparison of specific rotation data enables assignment of the absolute (S)-con
113            Overall, rotor domains (9.2+/-2.2 rotations) displayed higher frequency of activation (6.4
114                              Increasing crop rotation diversity while reducing herbicide applications
115 ridges were created by an out-of-plane grain rotation driven by reduction of grain boundary energy.
116 tation against the force of counterclockwise rotation driven by the F1-ATPase.
117                                       During rotation, duct deformability extends the frequency bandw
118  more derived clades, presumably due to wing rotation during development, and they help to bring reso
119                            Pronounced ligand rotation during muH binding seems to exclude Hred and Hs
120                             To evaluate crop rotation effects on maize seedling performance and its a
121              Data from N2 -physisorption and rotation electron diffraction provide evidence for the o
122 o the dark S1 state by restricting the rotor rotation enhances fluorescence, which leads to the propo
123 ve simulated hundreds of spontaneous subunit rotation events ( approximately 8 degrees ) using a resi
124  assay implicated the presence of reversible rotation events before completing translocation.
125 ion of long binding events in the controlled rotation experiments by taking into account the hydrolys
126      Here, we report high-pressure muon-spin rotation experiments probing the temperature-dependent m
127 gement practices such as intercropping, crop rotations, farm-level diversification and reduced agroch
128                                  The Earth's rotation forced life to evolve under cyclic day and nigh
129                          Flexible control of rotation, frequency, and phase shift of the perfectly mo
130 n, increasing the known activation energy to rotation from 8.5 to 10.6 kcal mol(-1).
131 ced change of 14 degrees in the polarization rotation from a metamaterial thickness of less than lamb
132 followed by a larger region characterized by rotation from in- to out-of-plane.
133 e inclinometer enabling it to remotely sense rotations from 0 degrees to 360 degrees along all three
134 ports an experimental observation on crystal rotation in a duplex (austenite + ferrite) steel induced
135 anagement practices for a corn-soybean-wheat rotation in a randomized complete block-design experimen
136 on and H exchange of aqueous NH4(+), for C-N rotation in amides, and for a hydride transfer.
137  alpha and beta rotations in 2 into a geared rotation in both 2(*-) and 2(2-) and result in a slow-fa
138   As an example, different probes of subunit rotation in the ribosome have provided qualitatively dis
139                                    Electrode rotation in this new cell design is controlled by magnet
140 polarization conversion and the polarization rotation in THz regime.
141 ations switch the independent alpha and beta rotations in 2 into a geared rotation in both 2(*-) and
142              In contrast, the alpha and beta rotations in 3 are correlated (geared) in a 2-fold cogwh
143 -plane strain which produced weak octahedral rotations in the out-of-plane direction, an orthorhombic
144 re and after the OPL was sectioned, external rotation increased by 8.4 degrees (P = 0.0043) on averag
145  different between the sexes; however, basal rotation increased in males (P = 0.035).
146       In addition, the adduction and femoral rotation increased internally at the heel strike, 50% of
147                                        While rotation increases the stability of matched and nearly m
148 d a significant change in the intramolecular rotation, increasing the known activation energy to rota
149 ed on a linear optical effect: giant Faraday rotation induced by a single electronic spin in a single
150  synthesis, and cannot convert gamma-subunit rotation into the conformational changes implicit in rot
151 ulations, indicate that inertial diffusional rotation is characterized by a broad range of angular di
152            We find that the rate of particle rotation is lowest for the more highly coordinated parti
153  is almost flat, implying that the lever arm rotation is mostly uncoupled from the motor domain.
154                     Strong nonlinear optical rotation is observed at key spectral locations, with an
155 stablished that their activation entropy for rotation is small but negative (DeltaS() = -3.0 cal mol(
156 uorophores to impart hindered intramolecular rotations, leading to desirable solid-state luminescence
157  by a combination of particle rearrangement, rotation, local deformation and diffusion, and grain gro
158 geophysical measurements from a corn-soybean rotation managed at three N fertilizer inputs with and w
159 were as high or higher for the 3- and 4-year rotations managed with the low-herbicide regime as for t
160 his linear matrix can be decomposed into the rotation matrix representing the orientation of the goal
161 eased transverse movement resulting from yaw rotation may have been a crucial evolutionary prerequisi
162 *-) and 2(2-) and result in a slow-fast-stop rotation mode for 2-2(*-)-2(2-).
163 cs simulation account for the degree of ring rotation observed experimentally.
164 sented LR in only n=7 out of 50 (14%): here, rotation occurred around a small area of scar (<0.03 mV;
165 eriments reveal twinning and related lattice rotation occurring on the timescale of tens of picosecon
166                                              Rotation occurs in 120 degrees power strokes separated b
167 e range of 2.3-80 K, we showed that internal rotation occurs in a potential with energy barriers of 0
168    Changes in anomalous head posture, ocular rotations, ocular alignment, and torsion preoperatively
169  geometry, we observe a maximum polarization rotation of 0.6 degrees and an ellipticity of 0.35 deg
170                              The directional rotation of [2]- and [3]catenane rotary molecular motors
171 he conformational changes to compression and rotation of a partially dissociated gD dimer.
172 ale and female POMT mutants show a clockwise rotation of adult abdominal segments, suggesting a chira
173 Ser2 and the Thr4 hydroxyl, can be formed by rotation of an arginine side chain, leaving the intermol
174 date was used to visualize the equal rate of rotation of both its rotor units.
175 t unique chirality because of the restricted rotation of C=N.
176 opy, we find that both limiting the relative rotation of chromophores and tuning the energy differenc
177 s with (2)H-labeled samples showed that fast rotation of dabco in these co-crystals follows a six-fol
178 teases use an unrelated catalytic mechanism, rotation of equivalent helices controls protease activit
179                               The 45 degrees rotation of HA providing full intensity modulation of tr
180             Bacterial mobility is powered by rotation of helical flagellar filaments driven by rotary
181 ng microscopy study and demonstrate that the rotation of m-phenylene units is a powerful design tool
182 ching from a C3h to Cs symmetry of mTBPB via rotation of m-phenylene units.
183   The role of hydrogen bonding led us to the rotation of NH4(+) within its solvent cage and then to t
184 he screening of band-edge charge carriers by rotation of organic cation molecules can be a major cont
185  symmetry breaking of clock/counterclockwise rotation of self-assembled particle chains, generate vig
186  by the F1-ATPase in steps equivalent to the rotation of single c-subunits in the c-ring of F0, and c
187                                 Finally, the rotation of single phenylene units in combination with d
188 is directly linked to intersubunit rotation, rotation of the 30S head domain and contact of the accep
189 inge points to enable such dynamic events as rotation of the 30S subunit head domain and in flexing o
190 n studies demonstrated that the light-driven rotation of the anchored motors is similar to that obser
191 which atropisomerism occurs by a cooperative rotation of the Ar-CO and Ar-Ar' bonds depending on subs
192 ve to retain their recognition properties by rotation of the ArB(OH)2 moiety, forming "T-shaped" comp
193 ctron microscopy we show that the collective rotation of the average magnetization proceeds in a uniq
194                                              Rotation of the bacterial flagellum is powered by a prot
195                      The ambient temperature rotation of the bicyclo[2.2.2]octane (BCO) group in BODC
196                                         This rotation of the branch helix removes the branch adenosin
197 his resulted from both N-domain twisting and rotation of the C domain (up to 30 degrees ) at the end
198                                Targeting the rotation of the C-C bond, a set of parameters were obtai
199 104-109, whose interaction may influence the rotation of the camshaft-like subunit gamma.
200 y profiles capture a discrete pattern in the rotation of the central gamma-shaft, with a metastable i
201 ring, and is nearly entirely consumed in the rotation of the central stalk.
202 te that exchange energy is tuned by relative rotation of the donor and acceptor moieties about the br
203 ion) during mid-embryogenesis, a 180 degrees rotation of the embryo within the egg and specific to he
204                                     The free rotation of the fluorescent molecular rotor, only observ
205                                   Asymmetric rotation of the intestine is directed by forces outside
206 mies evolved concurrently with increased yaw rotation of the jaw during chewing cycles.
207                 Beyond a similar 180 degrees rotation of the L-nucleotide ribose ring seen in other s
208 irming that the flexible linker dictates the rotation of the lectin domain, thus modulating the GalNA
209 s from a "coupled-torque" mechanism in which rotation of the Ox group, driven by increasing orbital o
210 tail undulations and step length through the rotation of the pelvic girdle and retraction of the femu
211 ily environmental fluctuations caused by the rotation of the planet.
212 1-mediated channel activation occurs through rotation of the pore helix, which displaces the F99 resi
213 o is achieved initially by the migration and rotation of the pronuclear complex (PNC) and its two ass
214 l of GenK catalysis is proposed wherein free rotation of the radical-bearing carbon is prevented and
215 gnetic fields, Rossby waves and differential rotation of the solar interior shear-layer (called tacho
216 cipient oxyallyl cation, is coupled with the rotation of the termini of the pentadienyl cation, favor
217                                     The mean rotation of the tIOLs at 12 months was 1.8 +/- 1.4 degre
218 el and the published structures show similar rotation of the upper portion of the pore-lining S6 heli
219 l pulse generates 360 degrees unidirectional rotation of up to 87% of crown ethers in a [2]catenane r
220 tions to visual input and are accompanied by rotations of the eyeball [1].
221                      The process of N-O bond rotation only becomes rate determining when in the prese
222 ns of motion such as contraction, wide-field rotation or luminance change.
223 c flow' that would usually occur during head rotations or body movements) best engages this visual mo
224  process, molecular motions (i.e., molecular rotations or vibrations) of a flexible fluorescent probe
225  forest conservation, shade adjustment, crop rotation, or status quo, in different regions.
226          Constant velocity Off-Vertical Axis Rotation (OVAR) imposes a continuously varying orientati
227  reflected by increased number of re-entrant rotations (p < 0.05), number of re-entrant rotations and
228 fies how configurations of oxygen octahedral rotation patterns, ordered cation arrangements and their
229   Transient dwells can halt counterclockwise rotation powered by the F1-ATPase in steps equivalent to
230 ld bosons in two dimensions using a standard rotation procedure.
231 round the magnetospheric boundary (at the co-rotation radius) and then accretes onto the white dwarf,
232 ection efficiency increases with the droplet rotation rate and decreases with the generator-collector
233                       The measurement of the rotation rate of individual amino groups could give insi
234 s and have a complex dependency upon stellar rotation rate.
235  different compounds to exhibit very similar rotation rates ( approximately 8 ps) at room temperature
236 ) on the collection efficiencies obtained at rotation rates ranging from 50 to 1100 rpm.
237                                        These rotations reduce the bond tension around Na and effectiv
238  by 81-96%, and that use of the more diverse rotations reduced toxicity and system dependence on herb
239 ing plot for beta-hydride elimination-olefin rotation-reinsertion is constructed from variable-temper
240 and consequently, Re-chains exhibit six-fold rotation, resulting in loss of macroscopic scale anisotr
241 For magnetic resonance contrast agents, this rotation results in diminished relaxivity.
242  movement is directly linked to intersubunit rotation, rotation of the 30S head domain and contact of
243 ction could potentially be exploited in crop rotation schemes or for enhancing root defense systems o
244 s, all-optical switching, nonlinear-enhanced rotation sensing, optical flip-flops for photonic memori
245  possibilities in quantum metrology, e.g. in rotation sensing.
246 ote selection and adoption of favorable crop rotation sequences.
247       The superimposition by translation and rotation (SITAR) analysis method was used to define the
248                    After adjustment of their rotation speed during ramp testing, 30 patients (48%) ha
249 of the RDE using a tachometer shows that the rotation speed of the electrode is the same as that of t
250 analysis showed more pungency with increased rotation speed, while others attributes were unaffected.
251 t geometry, tip-sample angles and distances, rotation speeds, and reproducibility.
252 rther into the nanoscale, the limitations of rotation stages become more apparent, leading to challen
253 ed to fundamental stellar properties such as rotation, surface gravity, and spectral type.
254 rent symmetry, hereafter referred to as spin-rotation symmetry, from the conventional spin Hall effec
255 put amount and pasture frequency in the crop rotation system) accounted for 27% of the relative influ
256 wa field experiment that included three crop rotation systems: a 2-year corn-soybean sequence, a 3-ye
257          We found that learning a visuomotor rotation task with the right hand changed CBI, not only
258                                       In the Rotation task, the correct choice depicted the study sce
259                                    In the No-Rotation task, the correct choice was a duplicate of the
260 ed to the same extent in the No-Rotation and Rotation tasks after matching for difficulty.
261 nge, -290 to 290), and spatial ability (Card Rotation Test; score range, -80 to 80) among men with AA
262 metaphase spindles first undergo a sustained rotation that brings them on-axis with their final orien
263 tional phenotypes: those that cause flagella rotation that is counterclockwise (CCW) A and kinase-off
264 talytic cysteine has undergone a 106 degrees rotation that results in a completely different network
265                                    Upon ring rotation, the protonated glutamate encounters the matrix
266                Depending on the direction of rotation, they can swim forward or backward and change d
267     After progression, patients made a final rotation to either pazopanib or everolimus monotherapy (
268  stimulation was applied concurrently during rotation to isolate the influence of vestibular input, u
269 tegies that manipulate N fertilizer and crop rotation to maximize crop N uptake while reducing enviro
270 l transition from the conventional diffusive rotation to superdiffusive rotation and further to a bal
271                   LabDCT quantifies particle rotation (to <0.05 degrees accuracy) and grain growth wh
272                             When an external rotation torque (18 N.m) was applied both before and aft
273 ta1 -adrenergic receptor blockade, LV apical rotation, twist and untwisting velocity were reduced in
274 ive star-forming galaxies, and find that the rotation velocities are not constant, but decrease with
275                              This results in rotation velocities of the visible matter within the dis
276      Here we report rotation curves (showing rotation velocity as a function of disk radius) for the
277 er mode pitch and different (often opposite) rotation velocity compared to the QSMs.
278 al pressure term that leads to a decrease in rotation velocity with increasing radius.
279 uding two components: navigation anxiety and rotation/visualization anxiety.
280 ial of the hold phase of adaptation when the rotation was held constant and movements tended to stabi
281        Our data demonstrate that while basal rotation was increased in males, LV twist was not signif
282 iffusive rotation and further to a ballistic rotation was observed with increasing asymmetry of the n
283                     Corn and soybean in each rotation were managed with conventional or low-herbicide
284                          LV twist and apical rotation were not altered from baseline or different bet
285 s stimulated collectively, only downward eye rotations were observed, demonstrating a functional corr
286                   Surprisingly, the observed rotations were small, averaging only 8.3 degrees , and w
287 onents (50% of total variation) which, after rotation, were identified as three dimensions of empower
288 s proved pivotal in controlling the speed of rotation, where a smaller size results in lower barriers
289 combinations except the low-herbicide 3-year rotation, which contained approximately 110 kg ha(-1) of
290 ction and autotomy of the tail limits pelvic rotation, which reduces femur retraction and decreases s
291 bility of the short-range ordered octahedral rotations, which resembles the pre-transition behavior.
292 ectrochemical cell that allows for electrode rotation while simultaneously providing a gastight envir
293      The chiral cells underwent longitudinal rotation while swimming, with more rapid longitudinal ro
294 limation of water ice and supported by rapid rotation, while at least one component rotates slowly wi
295 the design of two motors which show opposite rotation with respect to a methyl substituent.
296           Our platform achieves single-qubit rotations with fidelities greater than 99%, as verified
297 stidine kinase domains undergo a left handed rotation within microseconds.
298 tional to the timescale of hindered dihedral rotations within the polypeptide chain, with a proportio
299 cies in North America and an important short rotation woody crop for the bioenergy industry.
300 in corn and soybean was <25 kg ha(-1) in all rotation x herbicide combinations except the low-herbici

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