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Items: 28

1.

Morphology, muscle capacity, skill, and maneuvering ability in hummingbirds.

Dakin R, Segre PS, Straw AD, Altshuler DL.

Science. 2018 Feb 8;359(6376):653-657. doi: 10.1126/science.aao7104. eCollection 2018 Feb 9.

PMID:
29439237
2.

Virtual reality for freely moving animals.

Stowers JR, Hofbauer M, Bastien R, Griessner J, Higgins P, Farooqui S, Fischer RM, Nowikovsky K, Haubensak W, Couzin ID, Tessmar-Raible K, Straw AD.

Nat Methods. 2017 Oct;14(10):995-1002. doi: 10.1038/nmeth.4399. Epub 2017 Aug 21.

PMID:
28825703
3.

Mechanical Constraints on Flight at High Elevation Decrease Maneuvering Performance of Hummingbirds.

Segre PS, Dakin R, Read TJG, Straw AD, Altshuler DL.

Curr Biol. 2016 Dec 19;26(24):3368-3374. doi: 10.1016/j.cub.2016.10.028. Epub 2016 Dec 8.

4.

Automatic Segmentation of Drosophila Neural Compartments Using GAL4 Expression Data Reveals Novel Visual Pathways.

Panser K, Tirian L, Schulze F, Villalba S, Jefferis GSXE, Bühler K, Straw AD.

Curr Biol. 2016 Aug 8;26(15):1943-1954. doi: 10.1016/j.cub.2016.05.052. Epub 2016 Jul 14.

5.

Burst muscle performance predicts the speed, acceleration, and turning performance of Anna's hummingbirds.

Segre PS, Dakin R, Zordan VB, Dickinson MH, Straw AD, Altshuler DL.

Elife. 2015 Nov 19;4:e11159. doi: 10.7554/eLife.11159.

6.

Asymmetric processing of visual motion for simultaneous object and background responses.

Fenk LM, Poehlmann A, Straw AD.

Curr Biol. 2014 Dec 15;24(24):2913-9. doi: 10.1016/j.cub.2014.10.042. Epub 2014 Nov 13.

7.

Automated image-based tracking and its application in ecology.

Dell AI, Bender JA, Branson K, Couzin ID, de Polavieja GG, Noldus LP, Pérez-Escudero A, Perona P, Straw AD, Wikelski M, Brose U.

Trends Ecol Evol. 2014 Jul;29(7):417-28. doi: 10.1016/j.tree.2014.05.004. Epub 2014 Jun 5. Review.

PMID:
24908439
8.

FlyMAD: rapid thermogenetic control of neuronal activity in freely walking Drosophila.

Bath DE, Stowers JR, Hörmann D, Poehlmann A, Dickson BJ, Straw AD.

Nat Methods. 2014 Jul;11(7):756-62. doi: 10.1038/nmeth.2973. Epub 2014 May 25.

PMID:
24859752
9.

Flying Drosophila stabilize their vision-based velocity controller by sensing wind with their antennae.

Fuller SB, Straw AD, Peek MY, Murray RM, Dickinson MH.

Proc Natl Acad Sci U S A. 2014 Apr 1;111(13):E1182-91. doi: 10.1073/pnas.1323529111. Epub 2014 Mar 17.

10.

Circadian and circalunar clock interactions in a marine annelid.

Zantke J, Ishikawa-Fujiwara T, Arboleda E, Lohs C, Schipany K, Hallay N, Straw AD, Todo T, Tessmar-Raible K.

Cell Rep. 2013 Oct 17;5(1):99-113. doi: 10.1016/j.celrep.2013.08.031. Epub 2013 Sep 26.

11.

Discriminating external and internal causes for heading changes in freely flying Drosophila.

Censi A, Straw AD, Sayaman RW, Murray RM, Dickinson MH.

PLoS Comput Biol. 2013;9(2):e1002891. doi: 10.1371/journal.pcbi.1002891. Epub 2013 Feb 28.

12.

Active and passive antennal movements during visually guided steering in flying Drosophila.

Mamiya A, Straw AD, Tómasson E, Dickinson MH.

J Neurosci. 2011 May 4;31(18):6900-14. doi: 10.1523/JNEUROSCI.0498-11.2011.

13.

Visual control of altitude in flying Drosophila.

Straw AD, Lee S, Dickinson MH.

Curr Biol. 2010 Sep 14;20(17):1550-6. doi: 10.1016/j.cub.2010.07.025. Epub 2010 Aug 19.

14.

Multi-camera real-time three-dimensional tracking of multiple flying animals.

Straw AD, Branson K, Neumann TR, Dickinson MH.

J R Soc Interface. 2011 Mar 6;8(56):395-409. doi: 10.1098/rsif.2010.0230. Epub 2010 Jul 14.

15.

Object preference by walking fruit flies, Drosophila melanogaster, is mediated by vision and graviperception.

Robie AA, Straw AD, Dickinson MH.

J Exp Biol. 2010 Jul 15;213(Pt 14):2494-506. doi: 10.1242/jeb.041749.

16.

Active flight increases the gain of visual motion processing in Drosophila.

Maimon G, Straw AD, Dickinson MH.

Nat Neurosci. 2010 Mar;13(3):393-9. doi: 10.1038/nn.2492. Epub 2010 Feb 14.

PMID:
20154683
17.

Motmot, an open-source toolkit for realtime video acquisition and analysis.

Straw AD, Dickinson MH.

Source Code Biol Med. 2009 Jul 22;4:5. doi: 10.1186/1751-0473-4-5.

18.

Visual control of flight speed in Drosophila melanogaster.

Fry SN, Rohrseitz N, Straw AD, Dickinson MH.

J Exp Biol. 2009 Apr;212(Pt 8):1120-30. doi: 10.1242/jeb.020768.

19.

Vision egg: an open-source library for realtime visual stimulus generation.

Straw AD.

Front Neuroinform. 2008 Nov 4;2:4. doi: 10.3389/neuro.11.004.2008. eCollection 2008.

20.

Contrast sensitivity of insect motion detectors to natural images.

Straw AD, Rainsford T, O'Carroll DC.

J Vis. 2008 Mar 28;8(3):32.1-9. doi: 10.1167/8.3.32.

PMID:
18484838
21.

TrackFly: virtual reality for a behavioral system analysis in free-flying fruit flies.

Fry SN, Rohrseitz N, Straw AD, Dickinson MH.

J Neurosci Methods. 2008 Jun 15;171(1):110-7. doi: 10.1016/j.jneumeth.2008.02.016. Epub 2008 Mar 8.

PMID:
18405978
22.

A simple vision-based algorithm for decision making in flying Drosophila.

Maimon G, Straw AD, Dickinson MH.

Curr Biol. 2008 Mar 25;18(6):464-70. doi: 10.1016/j.cub.2008.02.054. Epub 2008 Mar 13.

23.
24.

Velocity constancy and models for wide-field visual motion detection in insects.

Shoemaker PA, O'Carroll DC, Straw AD.

Biol Cybern. 2005 Oct;93(4):275-87. Epub 2005 Oct 19.

PMID:
16151841
25.

Context-dependent stimulus presentation to freely moving animals in 3D.

Fry SN, Müller P, Baumann HJ, Straw AD, Bichsel M, Robert D.

J Neurosci Methods. 2004 May 30;135(1-2):149-57.

PMID:
15020099
26.

CD154 plays a central role in regulating dendritic cell activation during infections that induce Th1 or Th2 responses.

Straw AD, MacDonald AS, Denkers EY, Pearce EJ.

J Immunol. 2003 Jan 15;170(2):727-34.

27.

Cutting edge: Th2 response induction by dendritic cells: a role for CD40.

MacDonald AS, Straw AD, Dalton NM, Pearce EJ.

J Immunol. 2002 Jan 15;168(2):537-40.

28.

CD8- dendritic cell activation status plays an integral role in influencing Th2 response development.

MacDonald AS, Straw AD, Bauman B, Pearce EJ.

J Immunol. 2001 Aug 15;167(4):1982-8.

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