CAARD:Micropia

Welcome to the CAARD
The Clan AA Reference Database (CAARD), an in-progress database developed to investigate the major consensus and the phylogeny of clan AA to typify the different protein families according to prior (and further) estimations of their relationships using phylogenies, ancestral reconstructions, sequence logos and HMMs.

Ancestral Maximum Likelihood (ML) Joint Reconstruction

Comments

Ancestral ML reconstructions were performed using FastML 2.02 (Pupko et al. 2000). The tool generates six outputs:

  • Pin; reconstructed ancestral NJ tree in newick format.
  • Fin; parental relationship among reconstructed nodes and contemporary sequences.
  • Jrof; multiple alignment of contemporary sequences and nodes reconstructed with the Joint method.
  • Jpf; joint probability per position and total log likelihood.
  • Mrof; multiple alignment of contemporary sequences and nodes reconstructed with the marginal method
  • Mpf; marginal probability and total log likelihood

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Pin output : Ancestral tree

(Blastopia:0.881961,Micropia:0.902983,Mdg3:0.704110);

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Fin output: Parental relationship among reconstructed nodes and OTUs

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Name Father Distance to father Sons
BlastopiaN10.881961-
MicropiaN10.902983-
Mdg3N10.70411-
N1root!-Blastopia Micropia Mdg3

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Jpf output: Joint probability per amino acid position and total Log Likelihood

Position Joint probability Position Joint probability Position Joint probability Position Joint probability
00.000120621236.1784e-005460.000248546693.8746e-005
10.00505609240.000164728470.000454885707.00993e-005
20.000828498250.00285535480.0527004710.000423756
30.0156117260.0287569499.82184e-005721.03041e-005
40.000960219270.00103651500.00184937730.000759638
53.91208e-005283.53772e-006511.94861e-005740.000124155
63.15652e-005291.24394e-005520.000733616750.00106404
70.000828498301.0724e-005537.25179e-005760.00041562
80.00106404310.0156117540.000441945770.0156117
90.0035093320.00228709552.56027e-005780.000359807
100.00755849330.000501835568.29458e-006790.00217776
110.000216299340.00027589573.35713e-006800.000487169
127.83796e-005351.4141e-005588.98432e-006810.00223221
130.000766705360.000114135591.444e-005829.10784e-005
141.95284e-005379.45219e-005600.000246635833.56096e-005
150.000132323386.73408e-006610.00230475849.58213e-006
160.000675008390.000107699627.50068e-005850.000479756
177.25283e-005407.41301e-006630.0085868860.00184858
185.37412e-006410.000281785640.00164762874.2527e-006
192.50106e-005422.69642e-005650.00469993884.79643e-006
203.95267e-005430.0245309662.32289e-006897.32314e-006
211.91328e-005440.000203912670.000955388900.000125673
220.00228709450.000418724684.87763e-005  
Total log likelihood of joint reconstruction: -775.916

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Jrof output: Ancestral ML Reconstruction Alignment

There are two methods of ancestral reconstruction - Joint and Marginal. In this section, we provide a multiple alignment including both input peptidases and ancestral ML sequences reconstructed using the Joint method.The alignment is available in several formats clicking below the option "Set 1". To build HMM profiles and MRC sequences we removed non-informative amino acid stretches and gaps from several ancestral ML reconstruction analyses You can also retrieve the processed Jrof output, clicking below the option "Set 2". Note however that should you cannot select option 2 is because the output was not processed. <align id="micropia" folder="jrof"></align>

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Mpf output: Marginal probability per amino acid position and total Log Likelihood

Position Joint probability Position Joint probability Position Joint probability Position Joint probability
00.000248511239.17104e-005460.00074098690.000128453
10.0053195240.000216649470.00121157708.51188e-005
20.00121043250.0030227480.091904710.000498239
30.0156813260.076748490.000222311722.05907e-005
40.00138864270.0040906500.00416143730.000984194
59.13606e-005281.59292e-005515.58171e-005740.000201166
66.35829e-005297.10331e-005520.00109903750.00149388
70.00121043302.43036e-005530.000107365760.00110206
80.00149388310.0156813540.00159359770.0156813
90.00388076320.0026872556.94555e-005780.000430033
100.00778119330.000588708563.32874e-005790.0028563
110.000362688340.000352627572.49416e-005800.000521539
120.000237267356.24857e-005582.43524e-005810.00264051
130.00123557360.000214597596.24604e-005820.000215375
146.12752e-005370.00030198600.00114713830.000115294
150.000234473381.96549e-005610.00272547841.54496e-005
160.000834352390.000369435620.000336954850.00178059
170.000152418402.23542e-005630.022944860.00219296
182.83785e-005410.000317851640.0027717871.62377e-005
190.000114686423.3452e-005650.00525324884.97034e-005
209.86311e-005430.058565668.00113e-006894.77167e-005
217.18791e-005440.000876904670.00114109900.000230245
220.0026872450.000811997680.00011893  
Total log likelihood of joint reconstruction: -707.39

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Mrof output: Ancestral ML Reconstruction Alignment

There are two methods of ancestral reconstruction - Joint and Marginal. In this section, we provide a multiple alignment including both input peptidases and ancestral ML sequences reconstructed using the Joint method.The alignment is available in several formats clicking below the option "Set 1". To build HMM profiles and MRC sequences we removed non-informative amino acid stretches and gaps from several ancestral ML reconstruction analyses You can also retrieve the processed Jrof output, clicking below the option "Set 2". Note however that should you cannot select option 2 is because the output was not processed. <align id="micropia" folder="mrof"></align>

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Models

Sequence logo constructed from the input of the processed Jrof alignment. In every position, each residue is a letter whose height is proportional to its frequency multiplied by the information content of each position measured in bits. Letters are placed such that the most common is at the top.

  • Basic residues are represented in red
  • Hydrophobic residues in black
  • Amino acids frequent in β-turns (G and P) in dark grey
  • Small nucleophiles in violet
  • Acidic residues in orange
  • Acidic-relative amides in green

The logo was constructed using ChekAlign server with the Shannon's algorithm (Shannon 1997) and options "include gaps" and "Correction factor". Gaps are not represented by any symbol but occupy a blank also proportional to its frequency and, for aesthetic reasons, always at the top. Maximum entropy is log221. The alignment gap is considered to be another state or amino acid species.

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HMMs

>AP_micropia_mdg3 profile HMM generated consensus sequence
iDSGSevSiIKesIfnkmmdlaLnnTaTmlrGLGNcsvkttGQTfcyiLlkgTiqenyf
hnLfHVVhDqkmryDviiGRDfLtqcnLycsp

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Pairwise alignment between the MRC sequence and the DTG/ILG template HMM-profile

         Domain 1 of 1, from 1 to 91: score 67.0, E = 6.6e-21

DTG_ILG template *->vDTGAsvlsviskecklaqklgltrkkafdpSSYvCivtllsysqPs
                    +D+G++v s+i+++  +++k++                     ++++
AP_micropi     1    IDSGSEV-SIIKES--IFNKMM---------------------DLAL 23   

                 sktsttaqdtirgagGqskiyvSklktsgqirknllslvtikitkGnvTe
                 ++t t+    +rg  G++ +     kt+gq+         i ++ G++  
AP_micropi    24 NNTATM----LRGL-GNCSV-----KTTGQTF------CYILLK-GTI-- 54   

                 venrslpsdgvflvv.tdpedqksrydvILGrldfLrqlnsvhidl<-*
                   ++++ ++  f+vv+++ ++    ydvI+Gr dfL+q+n   +     
AP_micropi    55 --QENYFHNL-FHVVhDQKMR----YDVIIGR-DFLTQCNLY-CSP    91   

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Cite this site

Llorens, C. Futami, R. Renaud, G. and A. Moya (2009). Bioinformatic Flowchart and Database to Investigate the Diversity of Clan AA Peptidases.Biology Direct, 4:3.




Welcome to the Gypsy Database (GyDB) an open editable database about the evolutionary relationship of viruses, mobile genetic elements (MGEs) and the genomic repeats where we invite all authors to contribute with their knowledge to improve and expand the topics.
Cite this project:

Llorens, C., Futami, R., Covelli, L., Dominguez-Escriba, L., Viu, J.M., Tamarit, D., Aguilar-Rodriguez, J. Vicente-Ripolles, M., Fuster, G., Bernet, G.P., Maumus, F., Munoz-Pomer, A., Sempere, J.M., LaTorre, A., Moya, A. (2011) The Gypsy Database (GyDB) of Mobile Genetic Elements: Release 2.0 Nucleic Acids Research (NARESE) 39 (suppl 1): D70-D74 doi: 10.1093/nar/gkq1061

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