SPECIES FOR WHICH ORTHOLOGOUS EXONS / CDS ARE AVAILABLE

EUARCHONTOGLIRES
Homo_sapiens	Human	v01
Pan_troglodytes	Chimp	v01
Gorilla_gorilla	Gorilla	v05
Pongo_pygmaeus	Orangutan	v03
Nomascus_leucogenys	Gibbon	v07
Macaca_mulatta	Macaque	v01
Papio_anubis	Olive baboon	v09
Chlorocebus_sabaeus	Vervet	v09
Callithrix_jacchus	Marmoset	v06
Tarsius_syrichta	Tarsier	v05
Otolemur_garnettii	Bushbaby	v02
Microcebus_murinus	Mouse lemur	v02
Tupaia_belangeri	Tree shrew	v02
Mus_musculus	Mouse	v01
Rattus_norvegicus	Rat	v01
Dipodomys_ordii	Kangaroo rat	v05
Cavia_porcellus	Guinea pig	v02
Ictidomys_tridecemlineatus	Ground squirrel	v02
Oryctolagus_cuniculus	Rabbit	v01
Ochotona_princeps	Pika	v02

LAURASIATHERIA
Bos_taurus	Cow	v01
Ovis_aries	Sheep	v09
Tursiops_truncatus	Dolphin	v05
Sus_scrofa	Pig	v06
Vicugna_pacos	Alpaca	v05
Equus_caballus	Horse	v03
Canis_familiaris	Dog	v01
Ailuropoda_melanoleuca	Panda	v07
Mustela_putorius_furo	Ferret	v08
Felis_catus	Cat	v02
Myotis_lucifugus	Microbat	v02
Pteropus_vampyrus	Megabat	v05
Erinaceus_europaeus	Hedgehog	v02
Sorex_araneus	Shrew	v02

AFROTHERIA
Loxodonta_africana	Elephant	v01
Procavia_capensis	Hyrax	v05
Echinops_telfairi	Tenrec	v01

XENARTHRA
Dasypus_novemcinctus	Armadillo	v01
Choloepus_hoffmanni	Sloth	v05

MARSUPIALIA
Monodelphis_domestica	Opossum	v01
Macropus_eugenii	Wallaby	v06
Sarcophilus_harrisii	Tasmanian devil	v07

MONOTREMATA
Ornithorhynchus_anatinus	Platypus	v02

RELATIVE EVOLUTIONARY RATE	_
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The utility of a phylogenetic marker can be described by its relative evolutionary rate (RER): faster (respectively slower) evolving markers will be more suitable for lower (respectively deeper) taxonomic levels.
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In a first approximation, the total branch length (TBL) of the maximum likelihood (ML) tree is a reasonable descriptor of the evolutionary rate of a given exon. However, the TBL will preclude fair comparisons among different exons when the taxon sampling differs: the higher the species number, the longer the TBL.
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To circumvent this problem, we use the Super Distance Matrix (SDM) approach [Criscuolo et al. 2006], with a three-step procedure:
(i) The ML tree inferred from each of the exons / CDS is converted into a matrix of additive distances by computing the path-length between each pair of species.
(ii) Each of the matrices is brought closer to the others by a factor (α_p), according to the least-squares criterion. This operation is equivalent to multiplying by α_p every branch length of the initial trees.
(iii) Optimal values of the alpha_p parameters are calculated following Criscuolo et al. (2006). As α_p are inversely proportional to the evolutionary rates, 1/α_p values provide a measure of rate heterogeneities among exons / CDS even if the number of taxa differs. Here, relative evolutionary rate SDM estimates range from 0.01 to 5 (OrthoMaM mean = 1.2 ; standard-error = 0.6). For example, if exons / CDSs X and Y are respectively characterized by relative rates r_X = 0.2 and r_Y = 2.0, this means that Y is evolving 10 times faster than X.
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Request guidelines: In the [0-5] range of values, type RER < 1 to query rather conserved markers, 1 < RER < 2 for more variable markers, and RER > 2 for fast-evolving ones.

Reference: Criscuolo A., Berry V., Douzery E. J. P. & Gascuel O., 2006. SDM: a fast distance-based approach for (super)tree building in phylogenomics. Systematic Biology 55 (5) : 740-755.



	
 

a SHAPE OF THE G DISTRIBUTION

The substitution rate heterogeneity among sites of the exon / CDS alignment is described by the Γ distribution.

Lower (respectively higher) α values correspond to strong (respectively weak) heterogeneity. If α > 1, the substitution pattern among sites is rather homogeneous.

Request guidelines: In the [0-5] range of values, type alpha < 1 to query markers with stronger among-sites variability, and alpha > 1 for alignments with more evenly distributed variability.

	
	
	
Reference:	Yang Z., 1996.
			Among-site rate variation and its impact on phylogenetic analyses.
			Trends in Ecology and Evolution 11 (9) : 367-372.

PERCENTAGE OF G+C ON THIRD CODON POSITIONS

This parameter is a descriptor of the degree of base composition heterogeneity.
It is more contrasted on third codon positions than on the whole exon / CDS.

Request guidelines: In the [20-95] range of values, type %GC3 < 40 to query A+T rich markers, 40 < %GC3 < 60 for more equilibrated markers, and %GC3 > 60 for G+C rich markers.