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Items: 1 to 20 of 590

1.
2.

Molecular evidence regarding the origin of echolocation and flight in bats.

Teeling EC, Scally M, Kao DJ, Romagnoli ML, Springer MS, Stanhope MJ.

Nature. 2000 Jan 13;403(6766):188-92.

PMID:
10646602
3.

Integrated fossil and molecular data reconstruct bat echolocation.

Springer MS, Teeling EC, Madsen O, Stanhope MJ, de Jong WW.

Proc Natl Acad Sci U S A. 2001 May 22;98(11):6241-6. Epub 2001 May 15.

4.

A molecular phylogeny for bats illuminates biogeography and the fossil record.

Teeling EC, Springer MS, Madsen O, Bates P, O'brien SJ, Murphy WJ.

Science. 2005 Jan 28;307(5709):580-4.

5.

Primitive Early Eocene bat from Wyoming and the evolution of flight and echolocation.

Simmons NB, Seymour KL, Habersetzer J, Gunnell GF.

Nature. 2008 Feb 14;451(7180):818-21. doi: 10.1038/nature06549.

PMID:
18270539
6.

Molecular phylogenetics and historical biogeography of Rhinolophus bats.

Stoffberg S, Jacobs DS, Mackie IJ, Matthee CA.

Mol Phylogenet Evol. 2010 Jan;54(1):1-9. doi: 10.1016/j.ympev.2009.09.021. Epub 2009 Sep 18.

PMID:
19766726
7.
8.

The evolution of echolocation in bats.

Jones G, Teeling EC.

Trends Ecol Evol. 2006 Mar;21(3):149-56. Epub 2006 Feb 8. Review.

PMID:
16701491
10.

Phylogeny of extant and fossil Juglandaceae inferred from the integration of molecular and morphological data sets.

Manos PS, Soltis PS, Soltis DE, Manchester SR, Oh SH, Bell CD, Dilcher DL, Stone DE.

Syst Biol. 2007 Jun;56(3):412-30.

PMID:
17558964
11.
12.

Nuclear gene sequences confirm an ancient link between New Zealand's short-tailed bat and South American noctilionoid bats.

Teeling EC, Madsen O, Murphy WJ, Springer MS, O'Brien SJ.

Mol Phylogenet Evol. 2003 Aug;28(2):308-19.

PMID:
12878467
13.

The voltage-gated potassium channel subfamily KQT member 4 (KCNQ4) displays parallel evolution in echolocating bats.

Liu Y, Han N, Franchini LF, Xu H, Pisciottano F, Elgoyhen AB, Rajan KE, Zhang S.

Mol Biol Evol. 2012 May;29(5):1441-50. doi: 10.1093/molbev/msr310. Epub 2011 Dec 13.

14.

A family matter: conclusive resolution of the taxonomic position of the long-fingered bats, miniopterus.

Miller-Butterworth CM, Murphy WJ, O'Brien SJ, Jacobs DS, Springer MS, Teeling EC.

Mol Biol Evol. 2007 Jul;24(7):1553-61. Epub 2007 Apr 21.

15.

Working at the interface of phylogenetics and population genetics: a biogeographical analysis of Triaenops spp. (Chiroptera: Hipposideridae).

Russell AL, Ranivo J, Palkovacs EP, Goodman SM, Yoder AD.

Mol Ecol. 2007 Feb;16(4):839-51.

PMID:
17284215
16.

Molecular phylogeny of New World Myotis (Chiroptera, Vespertilionidae) inferred from mitochondrial and nuclear DNA genes.

Stadelmann B, Lin LK, Kunz TH, Ruedi M.

Mol Phylogenet Evol. 2007 Apr;43(1):32-48. Epub 2006 Jul 14.

PMID:
17049280
17.

Molecular systematics of the Hyaenidae: relationships of a relictual lineage resolved by a molecular supermatrix.

Koepfli KP, Jenks SM, Eizirik E, Zahirpour T, Van Valkenburgh B, Wayne RK.

Mol Phylogenet Evol. 2006 Mar;38(3):603-20.

PMID:
16503281
18.

Base-compositional biases and the bat problem. III. The questions of microchiropteran monophyly.

Hutcheon JM, Kirsch JA, Pettigrew JD.

Philos Trans R Soc Lond B Biol Sci. 1998 Apr 29;353(1368):607-17.

19.

Karyotypic evolution and phylogenetic relationships in the order Chiroptera as revealed by G-banding comparison and chromosome painting.

Ao L, Mao X, Nie W, Gu X, Feng Q, Wang J, Su W, Wang Y, Volleth M, Yang F.

Chromosome Res. 2007;15(3):257-67. Epub 2007 May 10.

PMID:
17310301
20.

Diversification and reproductive isolation: cryptic species in the only New World high-duty cycle bat, Pteronotus parnellii.

Clare EL, Adams AM, Maya-Simões AZ, Eger JL, Hebert PD, Fenton MB.

BMC Evol Biol. 2013 Jan 29;13:26. doi: 10.1186/1471-2148-13-26.

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