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Items: 1 to 50 of 61

1.

Coriolis and centrifugal forces drive haltere deformations and influence spike timing.

Mohren TL, Daniel TL, Eberle AL, Reinhall PG, Fox JL.

J R Soc Interface. 2019 Apr 26;16(153):20190035. doi: 10.1098/rsif.2019.0035.

2.

Morphospace exploration reveals divergent fitness optima between plants and pollinators.

Peng F, Campos EO, Sullivan JG, Berry N, Song BB, Daniel TL, Bradshaw HD Jr.

PLoS One. 2019 Mar 13;14(3):e0213029. doi: 10.1371/journal.pone.0213029. eCollection 2019.

3.

Neural-inspired sensors enable sparse, efficient classification of spatiotemporal data.

Mohren TL, Daniel TL, Brunton SL, Brunton BW.

Proc Natl Acad Sci U S A. 2018 Oct 16;115(42):10564-10569. doi: 10.1073/pnas.1808909115. Epub 2018 Sep 13.

4.

A Spatially Explicit Model Shows How Titin Stiffness Modulates Muscle Mechanics and Energetics.

Powers JD, Williams CD, Regnier M, Daniel TL.

Integr Comp Biol. 2018 Aug 1;58(2):186-193. doi: 10.1093/icb/icy055.

5.

Asymmetries in wing inertial and aerodynamic torques contribute to steering in flying insects.

Jankauski M, Daniel TL, Shen IY.

Bioinspir Biomim. 2017 Jun 8;12(4):046001. doi: 10.1088/1748-3190/aa714e.

PMID:
28474606
6.

Integration of parallel mechanosensory and visual pathways resolved through sensory conflict.

Roth E, Hall RW, Daniel TL, Sponberg S.

Proc Natl Acad Sci U S A. 2016 Nov 8;113(45):12832-12837. doi: 10.1073/pnas.1522419113. Epub 2016 Oct 24.

7.

INSECT FLIGHT. Luminance-dependent visual processing enables moth flight in low light.

Sponberg S, Dyhr JP, Hall RW, Daniel TL.

Science. 2015 Jun 12;348(6240):1245-8. doi: 10.1126/science.aaa3042. Epub 2015 Jun 11.

8.

Shape matters: corolla curvature improves nectar discovery in the hawkmoth Manduca sexta.

Campos EO, Bradshaw HD Jr, Daniel TL.

Funct Ecol. 2015 Apr;29(4):462-468.

9.

Dual dimensionality reduction reveals independent encoding of motor features in a muscle synergy for insect flight control.

Sponberg S, Daniel TL, Fairhall AL.

PLoS Comput Biol. 2015 Apr 28;11(4):e1004168. doi: 10.1371/journal.pcbi.1004168. eCollection 2015 Apr.

10.

A new twist on gyroscopic sensing: body rotations lead to torsion in flapping, flexing insect wings.

Eberle AL, Dickerson BH, Reinhall PG, Daniel TL.

J R Soc Interface. 2015 Mar 6;12(104):20141088. doi: 10.1098/rsif.2014.1088.

11.

Encoding properties of the mechanosensory neurons in the Johnston's organ of the hawk moth, Manduca sexta.

Dieudonné A, Daniel TL, Sane SP.

J Exp Biol. 2014 Sep 1;217(Pt 17):3045-56. doi: 10.1242/jeb.101568. Epub 2014 Jun 19.

12.

Feedback control as a framework for understanding tradeoffs in biology.

Cowan NJ, Ankarali MM, Dyhr JP, Madhav MS, Roth E, Sefati S, Sponberg S, Stamper SA, Fortune ES, Daniel TL.

Integr Comp Biol. 2014 Jul;54(2):223-37. doi: 10.1093/icb/icu050. Epub 2014 Jun 3. Review.

PMID:
24893678
13.

Fluid-structure interaction in compliant insect wings.

Eberle AL, Reinhall PG, Daniel TL.

Bioinspir Biomim. 2014 Jun;9(2):025005. doi: 10.1088/1748-3182/9/2/025005. Epub 2014 May 22.

PMID:
24855064
14.

Control of moth flight posture is mediated by wing mechanosensory feedback.

Dickerson BH, Aldworth ZN, Daniel TL.

J Exp Biol. 2014 Jul 1;217(Pt 13):2301-8. doi: 10.1242/jeb.103770. Epub 2014 Apr 15.

15.

The length-tension curve in muscle depends on lattice spacing.

Williams CD, Salcedo MK, Irving TC, Regnier M, Daniel TL.

Proc Biol Sci. 2013 Sep 7;280(1766):20130697. doi: 10.1098/rspb.2013.0697. Print 2013 Sep 7.

16.

The cross-bridge spring: can cool muscles store elastic energy?

George NT, Irving TC, Williams CD, Daniel TL.

Science. 2013 Jun 7;340(6137):1217-20. doi: 10.1126/science.1229573. Epub 2013 Apr 25.

17.

Flexible strategies for flight control: an active role for the abdomen.

Dyhr JP, Morgansen KA, Daniel TL, Cowan NJ.

J Exp Biol. 2013 May 1;216(Pt 9):1523-36. doi: 10.1242/jeb.077644.

18.

Wireless stimulation of antennal muscles in freely flying hawkmoths leads to flight path changes.

Hinterwirth AJ, Medina B, Lockey J, Otten D, Voldman J, Lang JH, Hildebrand JG, Daniel TL.

PLoS One. 2012;7(12):e52725. doi: 10.1371/journal.pone.0052725. Epub 2012 Dec 26.

19.

Elastic energy storage and radial forces in the myofilament lattice depend on sarcomere length.

Williams CD, Regnier M, Daniel TL.

PLoS Comput Biol. 2012;8(11):e1002770. doi: 10.1371/journal.pcbi.1002770. Epub 2012 Nov 15.

20.

Abdicating power for control: a precision timing strategy to modulate function of flight power muscles.

Sponberg S, Daniel TL.

Proc Biol Sci. 2012 Oct 7;279(1744):3958-66. doi: 10.1098/rspb.2012.1085. Epub 2012 Jul 25.

21.

Filament compliance influences cooperative activation of thin filaments and the dynamics of force production in skeletal muscle.

Tanner BC, Daniel TL, Regnier M.

PLoS Comput Biol. 2012;8(5):e1002506. doi: 10.1371/journal.pcbi.1002506. Epub 2012 May 10.

22.

Temperature gradients drive mechanical energy gradients in the flight muscle of Manduca sexta.

George NT, Sponberg S, Daniel TL.

J Exp Biol. 2012 Feb 1;215(Pt 3):471-9. doi: 10.1242/jeb.062901.

23.

Insect-machine interface: a carbon nanotube-enhanced flexible neural probe.

Tsang WM, Stone AL, Otten D, Aldworth ZN, Daniel TL, Hildebrand JG, Levine RB, Voldman J.

J Neurosci Methods. 2012 Mar 15;204(2):355-65. doi: 10.1016/j.jneumeth.2011.11.026. Epub 2011 Nov 29.

PMID:
22155384
24.

Temperature gradients in the flight muscles of Manduca sexta imply a spatial gradient in muscle force and energy output.

George NT, Daniel TL.

J Exp Biol. 2011 Mar 15;214(Pt 6):894-900. doi: 10.1242/jeb.047969.

25.

Axial and radial forces of cross-bridges depend on lattice spacing.

Williams CD, Regnier M, Daniel TL.

PLoS Comput Biol. 2010 Dec 2;6(12):e1001018. doi: 10.1371/journal.pcbi.1001018.

26.

Vortexlet models of flapping flexible wings show tuning for force production and control.

Mountcastle AM, Daniel TL.

Bioinspir Biomim. 2010 Dec;5(4):045005. doi: 10.1088/1748-3182/5/4/045005. Epub 2010 Nov 24.

PMID:
21098955
27.

Antennae in the hawkmoth Manduca sexta (Lepidoptera, Sphingidae) mediate abdominal flexion in response to mechanical stimuli.

Hinterwirth AJ, Daniel TL.

J Comp Physiol A Neuroethol Sens Neural Behav Physiol. 2010 Dec;196(12):947-56. doi: 10.1007/s00359-010-0578-5. Epub 2010 Sep 7.

PMID:
20820787
28.

Flexible split-ring electrode for insect flight biasing using multisite neural stimulation.

Tsang WM, Stone AL, Aldworth ZN, Hildebrand JG, Daniel TL, Akinwande AI, Voldman J.

IEEE Trans Biomed Eng. 2010 Jul;57(7):1757-64. doi: 10.1109/TBME.2010.2041778. Epub 2010 Feb 18.

PMID:
20176539
29.

Encoding properties of haltere neurons enable motion feature detection in a biological gyroscope.

Fox JL, Fairhall AL, Daniel TL.

Proc Natl Acad Sci U S A. 2010 Feb 23;107(8):3840-5. doi: 10.1073/pnas.0912548107. Epub 2010 Feb 3.

30.

A neural basis for gyroscopic force measurement in the halteres of Holorusia.

Fox JL, Daniel TL.

J Comp Physiol A Neuroethol Sens Neural Behav Physiol. 2008 Oct;194(10):887-97. doi: 10.1007/s00359-008-0361-z. Epub 2008 Aug 27.

PMID:
18751714
31.

Two perspectives on nursing student exposure to nephrology nursing.

Wilson B, Daniel TL.

CANNT J. 2008 Apr-Jun;18(2):54. No abstract available.

PMID:
18669011
32.
33.

Sarcomere lattice geometry influences cooperative myosin binding in muscle.

Tanner BC, Daniel TL, Regnier M.

PLoS Comput Biol. 2007 Jul;3(7):e115.

34.

Neuromechanics: an integrative approach for understanding motor control.

Nishikawa K, Biewener AA, Aerts P, Ahn AN, Chiel HJ, Daley MA, Daniel TL, Full RJ, Hale ME, Hedrick TL, Lappin AK, Nichols TR, Quinn RD, Satterlie RA, Szymik B.

Integr Comp Biol. 2007 Jul;47(1):16-54. Epub 2007 May 27.

PMID:
21672819
35.

Antennal mechanosensors mediate flight control in moths.

Sane SP, Dieudonné A, Willis MA, Daniel TL.

Science. 2007 Feb 9;315(5813):863-6.

36.

Flower tracking in hawkmoths: behavior and energetics.

Sprayberry JD, Daniel TL.

J Exp Biol. 2007 Jan;210(Pt 1):37-45.

37.

Flight control in the hawkmoth Manduca sexta: the inverse problem of hovering.

Hedrick TL, Daniel TL.

J Exp Biol. 2006 Aug;209(Pt 16):3114-30.

38.

Implant anchorage in orthodontic practice: the Straumann Orthosystem.

Thomas MV, Daniel TL, Kluemper T.

Dent Clin North Am. 2006 Jul;50(3):425-37, vii. Review.

PMID:
16818024
39.

A spatially explicit nanomechanical model of the half-sarcomere: myofilament compliance affects Ca(2+)-activation.

Chase PB, Macpherson JM, Daniel TL.

Ann Biomed Eng. 2004 Nov;32(11):1559-68.

PMID:
15636115
40.
41.

Cardiac-like behavior of an insect flight muscle.

Tu MS, Daniel TL.

J Exp Biol. 2004 Jun;207(Pt 14):2455-64.

42.
43.

Flexural stiffness in insect wings. II. Spatial distribution and dynamic wing bending.

Combes SA, Daniel TL.

J Exp Biol. 2003 Sep;206(Pt 17):2989-97.

44.

Flexural stiffness in insect wings. I. Scaling and the influence of wing venation.

Combes SA, Daniel TL.

J Exp Biol. 2003 Sep;206(Pt 17):2979-87.

45.

Flexible wings and fins: bending by inertial or fluid-dynamic forces?

Daniel TL, Combes SA.

Integr Comp Biol. 2002 Nov;42(5):1044-9. doi: 10.1093/icb/42.5.1044.

PMID:
21680386
46.

Shape, flapping and flexion: wing and fin design for forward flight.

Combes SA, Daniel TL.

J Exp Biol. 2001 Jun;204(Pt 12):2073-85.

47.

Viscosity and solute dependence of F-actin translocation by rabbit skeletal heavy meromyosin.

Chase PB, Chen Y, Kulin KL, Daniel TL.

Am J Physiol Cell Physiol. 2000 Jun;278(6):C1088-98.

48.

Animal movement, mechanical tuning and coupled systems.

Daniel TL, Tu MS.

J Exp Biol. 1999 Dec;202(Pt 23):3415-21. Review.

49.
50.

Invertebrate swimming: integrating internal and external mechanics.

Daniel TL.

Symp Soc Exp Biol. 1995;49:61-89.

PMID:
8571236

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