TREE-PUZZLE 

Input file name: cons-pure-prot.prot
User tree file name: cons-pure-prot.ctrees
Type of analysis: consensus construction
Parameter estimation: approximate (faster)
Parameter estimation uses: 1st user tree (for substitution process and rate variation)

Standard errors (S.E.) are obtained by the curvature method.
The upper and lower bounds of an approximate 95% confidence interval
for parameter or branch length x are x-1.96*S.E. and x+1.96*S.E.


SEQUENCE ALIGNMENT

Input data: 7 sequences with 128 amino acid sites
Number of constant sites: 7 (= 5.5% of all sites)

Number of site patterns: 125
Number of constant site patterns: 5 (= 4.0% of all site patterns)


Concering parsimony informative sites there are:

Number of parsimony informative sites: 78 (= 60.9% of all sites)
  - fully informative sites:  12 (= 9.4% of all sites)
  - partly informative sites: 66 (= 51.6% of all sites)
Number of parsimony uninformative sites: 50 (= 39.1% of all sites)
  - variable, but uninformative sites: 43 (= 33.6% of all sites)
  - completely constant sites: 7 (= 5.5% of all sites)
  - constant sites (but with gaps/wildcards): 0 (= 0.0% of all sites)


For each sequence there are following numbers of parsimony (non-)informative site:

                    informative sites   non-informative sites
 1   HBB_HUMAN           72 ( 56.25%)            56 ( 43.75%)
 2   HBB_HORSE           75 ( 58.59%)            53 ( 41.41%)
 3   HBA_HUMAN           76 ( 59.38%)            52 ( 40.62%)
 4   HBA_HORSE           75 ( 58.59%)            53 ( 41.41%)
 5   MYG_PHYCA           41 ( 32.03%)            87 ( 67.97%)
 6   GLB5_PETMA          43 ( 33.59%)            85 ( 66.41%)
 7   LGB2_LUPLU          38 ( 29.69%)            90 ( 70.31%)

Note: partially informative sites are informative only for some sequences. Hence, the number of informative sites for each sequence can differ.


SUBSTITUTION PROCESS

Model of substitution: Dayhoff (Dayhoff et al. 1978)
Amino acid frequencies (estimated from data set):

 pi(A) =  12.2%
 pi(R) =   2.3%
 pi(N) =   3.0%
 pi(D) =   4.9%
 pi(C) =   0.7%
 pi(Q) =   2.3%
 pi(E) =   5.4%
 pi(G) =   6.0%
 pi(H) =   5.8%
 pi(I) =   2.7%
 pi(L) =  12.5%
 pi(K) =   9.3%
 pi(M) =   1.3%
 pi(F) =   4.9%
 pi(P) =   2.6%
 pi(S) =   6.7%
 pi(T) =   4.5%
 pi(W) =   1.3%
 pi(Y) =   2.2%
 pi(V) =   9.4%


AMBIGUOUS CHARACTERS IN THE SEQUENCE (SEQUENCES IN INPUT ORDER)

                   gaps  wildcards        sum   % sequence
 1   HBB_HUMAN        0          0          0        0.00%   
 2   HBB_HORSE        0          0          0        0.00%   
 3   HBA_HUMAN        0          0          0        0.00%   
 4   HBA_HORSE        0          0          0        0.00%   
 5   MYG_PHYCA        0          0          0        0.00%   
 6   GLB5_PETMA       0          0          0        0.00%   
 7   LGB2_LUPLU       0          0          0        0.00%   
 -----------------------------------------------------------
 Sum                  0          0          0        0.00%   


The table above shows the amount of gaps ('-') and other 'wildcard'
characters ('X', '?', etc.) and their percentage of the 128 columns
in the alignment.
Sequences with more than 50% ambiguous characters are marked with a '!' and 
should be checked, whether they have sufficient overlap to other sequences.
Sequences with 100% ambiguous characters do not hold any phylogenetic
information and had to be discarded from the analysis.



SEQUENCE COMPOSITION (SEQUENCES IN INPUT ORDER)

                  5% chi-square test  p-value   chi2-value
 1   HBB_HUMAN         passed          92.31%     (11.02)  
 2   HBB_HORSE         passed          79.58%     (13.79)  
 3   HBA_HUMAN         passed          93.09%     (10.78)  
 4   HBA_HORSE         passed          81.20%     (13.50)  
 5   MYG_PHYCA         passed          33.23%     (21.08)  
 6   GLB5_PETMA        passed          19.11%     (24.13)  
 7   LGB2_LUPLU        passed          41.67%     (19.64)  

The chi-square tests with 19 degrees of freedom compares the
amino acid composition of each sequence to the frequency
distribution assumed in the maximum likelihood model.

WARNING: Result of chi-square test may not be valid because of
small maximum likelihood frequencies and short sequence length!


IDENTICAL SEQUENCES

The sequences in each of the following groups are all identical. To speed
up computation please remove all but one of each group from the data set.

 All sequences are unique.


MAXIMUM LIKELIHOOD DISTANCES

Maximum likelihood distances are computed using the selected model of
substitution and rate heterogeneity.

  7
HBB_HUMAN   0.00  0.17  0.96  0.99  2.12  1.77  2.78
HBB_HORSE   0.17  0.00  1.01  1.02  2.09  1.78  2.86
HBA_HUMAN   0.96  1.01  0.00  0.12  1.93  1.30  2.54
HBA_HORSE   0.99  1.02  0.12  0.00  2.00  1.39  2.51
MYG_PHYCA   2.12  2.09  1.93  2.00  0.00  2.12  2.79
GLB5_PETMA  1.77  1.78  1.30  1.39  2.12  0.00  2.18
LGB2_LUPLU  2.78  2.86  2.54  2.51  2.79  2.18  0.00

Average distance (over all possible pairs of sequences):  1.73
                  minimum  : 0.12,  maximum  : 2.86
                  variance : 0.65,  std.dev. : 0.80


RATE HETEROGENEITY

Model of rate heterogeneity: uniform rate


TREE SEARCH

100 tree topologies were specified by the user.


CONSENSUS TREE

Support for the internal branches of the unrooted consensus tree
topology is shown in percent.

This consensus tree is not completely resolved!


         :---HBA_HUMAN 
     :100:             
     :   :---HBA_HORSE 
 :100:                 
 :   :   :---MYG_PHYCA 
 :   :   :             
 :   :100:---GLB5_PETMA
 :       :             
 :       :---LGB2_LUPLU
 :                     
 :-----------HBB_HORSE 
 :                     
 :-----------HBB_HUMAN 


Consensus tree (in CLUSTAL W notation):

(HBB_HUMAN,((HBA_HUMAN,HBA_HORSE)100,(MYG_PHYCA,GLB5_PETMA,LGB2_LUPLU)100)100,
HBB_HORSE);


BIPARTITIONS

The following bipartitions occured at least once in the specified set
 of 100 usertrees tree topologies.
Bipartitions included in the consensus tree:
(bipartition with sequences in input order : number of times seen (and ratio))

 **..*** :   100 (1.00)
 ****... :   100 (1.00)
 **..... :   100 (1.00)

Congruent bipartitions occurred in 50% or less, not included in 
the consensus tree:
(bipartition with sequences in input order : number of times seen (and ratio))

 ****..* :    40 (0.40)

Incongruent bipartitions not included in the consensus tree:
(bipartition with sequences in input order : number of times seen (and ratio))

 *****.. :    37 (0.37)
 ****.*. :    23 (0.23)


MAXIMUM LIKELIHOOD BRANCH LENGTHS ON CONSENSUS TREE (NO CLOCK)

Branch lengths are computed using the selected model of
substitution and rate heterogeneity.


              :-3 HBA_HUMAN
         :----8
         :    :-4 HBA_HORSE
 :------10
 :       :     :-------------5 MYG_PHYCA
 :       :-----9
 :             :-------6 GLB5_PETMA
 :             :
 :             :-----------------7 LGB2_LUPLU
 :
 :--2 HBB_HORSE
 :
 :-1 HBB_HUMAN
 

         branch  length     S.E.   branch  length     S.E.
HBB_HUMAN     1  0.04  0.03       8  0.28  0.08
HBB_HORSE     2  0.12  0.03       9  0.40  0.12
HBA_HUMAN     3  0.02  0.02      10  0.60  0.11
HBA_HORSE     4  0.09  0.03
MYG_PHYCA     5  1.33  0.21
GLB5_PETMA    6  0.70  0.14     10 iterations until convergence
LGB2_LUPLU    7  1.76  0.28     log L: -1699.50


Consensus tree with maximum likelihood branch lengths
(in CLUSTAL W notation):

(HBB_HUMAN:0.04,((HBA_HUMAN:0.02,HBA_HORSE:0.09)100:0.28,
(MYG_PHYCA:1.33,GLB5_PETMA:0.70,LGB2_LUPLU:1.76)100:0.40)
100:0.60,HBB_HORSE:0.12);


TIME STAMP