Biology Reference
In-Depth Information
15. Muller KF, Borsch T, Hilu KW. Phylogenetic utility of rapidly evolving DNA at high
taxonomical levels: contrasting matK, trnT-F, and rbcL in basal angiosperms.
Mol.
Phylogenet. Evol
. 2006;
41
:99-117.
16. Terry RG, Brown GK, Olmstead RG. Examination of subfamilial phylogeny in
Bromeliaceae using comparative sequencing of the plastid locus ndhF.
Am. J. Bot
.
1997;
845
:664-670.
17. Kuo LY, Li FW, Chiou WL, Wnag CN. First insights into fern matK phylogeny.
Mol.
Phylogenet. Evol
. 2011;
59
:556-566.
18. Asumussen CB, Chase MW. Coding and noncoding plastid DNA in palm systematic.
Am.
J. Bot
. 2001;
98
:1103-1117.
19. Asmussen CB, Dransfiedl J, Deickmannm V, Barford AS, Pintaud JC, Baker WJ. A new
subfamily classification of the palm family (Arecaceae): evidence from plastid DNA phy-
logeny.
Bot. J. Linn. Soc
. 2006;
151
:15-38.
20. Baker WJ, Asmussen CB, Barrow S, Dransfield J, Hedderson TA. A phylogenetic study
of the palm family (Palmae) based on chloroplast DNA sequences from the trnL-trnF
region.
Plant Syst. Evol
. 1999;
219
:111-126.
21. Hahn WJ. A phylogenetic analysis of the Arecoid line of palms based on plastid DNA
sequence data.
Mol. Phylogenet. Evol
. 2002;
23
:189-204.
22. Hahn WJ. A molecular phylogenetic study of the palmae (Arecaceae) based on atpB,
rbcL, and 18S nrDNA sequences.
Syst. Biol
. 2002;
51
:92-112.
23. Lewis CE, Doyle JJ. Phylogenetic utility of the nuclear gene malate synthase in the palm
family (Arecaceae).
Mol. Phylogenet. Evol
. 2001;
19
:409-420,
10.1006/mpev.2001.0932.
24. Thomas MM, Garwood NC, Baker WJ, Henderson SA, Russell SJ, Hodel DR, et al.
Molecular phylogeny of the palm genus Chamaedorea, based on the low-copy nuclear
genes PRK and RPB2.
Mol. Phylogenet. Evol
. 2006;
38
:398-415.
25. Norup MV, Dransfield J, Chase MW, Barfod AS, Fernando ES, Baker WJ. Homoplasious
character combinations and generic delimitation: case study from the Indo-Pacific are-
coid palms.
Am. J. Bot
. 2006;
93
:1065-1080.
26. Roncal J, Zona S, Lewis CE. Molecular phylogenetic studies of Caribbean palms
(Arecaceae) and their relationships to biogeography and conservation.
Bot. Rev
.
2008;
74
:78-102,
10.1007/s12229-008-9005-9.
27. Meerow AW, Noblick L, Borrone JW, Couvreur LP, Mauro-Herrera M, Hahn
WJ, et al. Phylogenetic analysis of seven WRKY genes across the palm subtribe
Attaleinae (Arecaceae) identifies Syagrus as sister group of the coconut.
PLoS ONE
.
2009;
4
(10):e:7353.
28. Mathews S, Lavin M, Sharrock RA. Evolution of the phytochrome gene fam-
ily and its utility for phylogenetic analysis of angiosperms.
Ann. Mo. Bot. Garden
.
1995;
82
:296-321.
29. LudeƱa B, Chabrillange N, Bertossi FA, Adam H, Tregear JW, Pintaud JC, et al. (2011).
Phylogenetic utility of the nuclear genes AGAMOUS 1 and PHYTOCHROME B in
palms (Arecaceae): an example within Bactridinae.
Ann Bot
. doi: 10.1093/aob/mcr191
(in press).
30. Baker WJ, Savolainen V, Asumussen-Lange CB, Chase MW, Dransfield J, Forest F, et al.
Complete generic level phylogenetic analyses of palms (Arecaceae) with comparisons of
supertree and supermatrix approaches.
Syst. Biol
. 2009;
58
:240-259.
31. Couvreur TLP, Forest F, Baker WJ. Origin and global diversification patterns of tropi-
cal rain forests: inferences from a complete genus level phylogeny of palms.
BMC Biol
.
2011;
9
:44.