Biology Reference
In-Depth Information
Weir, B.S., (1990).
Genetic Data Analysis
. Sinauer, Sunderland, MA.
Werman, S.D., Springer, M.S., and Briteen, R.J., (1996). Nucleic acids I; DNA-DNA hybridization.
In: Hillis, D.M., Moritz, C., and Mable, B.K., Eds.,
Molecular Systematics
, 2nd Ed., Sinauer,
Sunderland, MA, pp. 169-204.
Whelan, S., Lio, P., and Goldman, N., (2001). Molecular phylogenetics: state-of-the art methods for
looking into the past.
Trends Genet.
17
: 262-272.
White, M.J.D., (1973).
Animal Cytology and Evolution
, 3rd Ed., Cambridge University Press,
Cambridge, UK.
White, M.J.D., (1978).
Modes of Speciation
. W.H. Freeman, San Francisco, CA.
White, P.S., and Densmore III, L.D., (1992). Mitochondrial DNA isolation. In: Hoelzel, A.R., Ed.,
Molecular Genetic Analysis of Populations. A Practical Approach
, IRL Press, Oxford, UK, pp.
29-58.
Whitfield, J.B., and Purcell III, A.H., (2013).
Daly and Doyen's Introduction to Insect Biology and
Diversity
, Third Ed., Oxford Univ. Press, NY, [Although the topic became available in 2012, it
has a 2013 copyright date.].
Wiegmann, B.M., Trautwein, M.D., Kim, J.W., Cassel, B.K., Bertone, M.A., and Winterton, S.L., et al.
(2009). Single-copy nuclear genes resolve the phylogeny of the holometabolous insects.
BMC
Biol.
7
: 34.
Wiley, E.O., and Lieberman, B.S., (2011).
Phylogenetics
Theory and Practice of Phylogenetic
Systematics
, 2nd Edition, Wiley-Blackwell, Hoboken, NJ.
Wilson, A.C., Ochman, H., and Prager, E.M., (1987). Molecular time scale for evolution.
Trends
Genet.
3
: 241-247.
Wilson, I., Weale, M., and Balding, D., (2003). Inferences from DNA data: Population histories,
evolutionary processes and forensic match probabilities.
J. R. Statist. Soc. Ser. A
166
: 155-188.
Winker, K., Rocque, D.A., Braile, T.M., and Pruett, C.L., (2007). Vainly beating the air: species-
concept debates need not impede progress in science or conservation.
Ornithol. Monogr.
63
:
30-44.
Woese, C.R., (1987). Bacterial evolution.
Microbiol. Rev.
51
: 227-271.
Woese, C.R., (2000). Interpreting the universal phylogenetic tree.
Proc. Natl. Acad. Sci. USA
97
:
8392-8396.
Woese, C.R., Kandler, O., and Wheelis, M.L., (1990). Towards a natural system of organisms:
proposal for domains Archaea, Bacteria and Eucarya.
Proc. Natl. Acad. Sci. USA
87
: 4576-4579.
Wu, C.I., Hollocher, H., Begun, D.J., Aquadro, C.F., Xu, Y., and Wu, M.L., (1995). Sexual isolation in
Drosophila melanogaster
: a possible case of incipient speciation.
Proc. Natl. Acad. Sci. USA
92
:
2519-2523.
Xia, X., and Yang, Q., (2011). A distance-based least-square method for dating speciation events.
Mol. Biol. Evol.
59
: 342-353.
Yang, Z., (2007). PAML 4: Phylogenetic analysis by maximum likelihood.
Mol. Biol. Evol.
24
:
1586-1591.
Yang, Z., and Bielawski, J.P., (2000). Statistical methods for detecting molecular adaptation.
Trends
Ecol. Evol.
15
: 496-503.
Yassin, A., Markow, T.A., Parechania, A., O'Grady, P.M., and DeSalle, R., (2010). The genus
Drosophila
as a model for testing tree- and character-based methods of species identification
using DNA barcoding.
Mol. Phylogenet. Evol.
57
: 509-517.
Zahariev, M., Dahl., V., Chen, W., and Levesque, C.A., (2009). Efficient algorithms for the discovery
of DNA oligonucleotide barcodes from sequence databases.
Mol. Ecol. Res.
9
(
Suppl. 1
): 58-64.
Zuckerkandl, E., and Pauling, L., (1965). Evolutionary divergence and convergence in proteins. In:
Bryson, V., and Vogel, H.J., Eds.,
Evolving Genes and Proteins
, Academic Press, New York,
pp. 97-166.