BLASTP 2.2.26 [Sep-21-2011]
Reference: Altschul, Stephen F., Thomas L. Madden, Alejandro A. Schaffer,
Jinghui Zhang, Zheng Zhang, Webb Miller, and David J. Lipman (1997),
"Gapped BLAST and PSI-BLAST: a new generation of protein database search
programs", Nucleic Acids Res. 25:3389-3402.
Reference for compositional score matrix adjustment: Altschul, Stephen F.,
John C. Wootton, E. Michael Gertz, Richa Agarwala, Aleksandr Morgulis,
Alejandro A. Schaffer, and Yi-Kuo Yu (2005) "Protein database searches
using compositionally adjusted substitution matrices", FEBS J. 272:5101-5109.
Query= psy9487
(101 letters)
Database: pdbaa
62,578 sequences; 14,973,337 total letters
Searching..................................................done
>pdb|2GMH|A Chain A, Structure Of Porcine Electron Transfer Flavoprotein-
Ubiquinone Oxidoreductase In Complexed With Ubiquinone
pdb|2GMH|B Chain B, Structure Of Porcine Electron Transfer Flavoprotein-
Ubiquinone Oxidoreductase In Complexed With Ubiquinone
pdb|2GMJ|A Chain A, Structure Of Porcine Electron Transfer Flavoprotein-
Ubiquinone Oxidoreductase
pdb|2GMJ|B Chain B, Structure Of Porcine Electron Transfer Flavoprotein-
Ubiquinone Oxidoreductase
Length = 584
Score = 166 bits (420), Expect = 3e-42, Method: Compositional matrix adjust.
Identities = 75/98 (76%), Positives = 86/98 (87%)
Query: 4 GMPMNNHGNYVVRLGHVVKWLGEQAEAMGVEIYPGIPASEVLYHGDGSVKGIATGDVGIA 63
G+PMNNHGNYVVRLGH+V W+GEQAEA+GVE+YPG A+E+L+H DGSVKGIAT DVGI
Sbjct: 130 GLPMNNHGNYVVRLGHLVSWMGEQAEALGVEVYPGYAAAEILFHEDGSVKGIATNDVGIQ 189
Query: 64 KDGSPKDTFARGMELHAKVTIFAEGCHGHLTKSLSSRF 101
KDG+PK TF RG+ELHAKVTIFAEGCHGHL K L +F
Sbjct: 190 KDGAPKTTFERGLELHAKVTIFAEGCHGHLAKQLYKKF 227
>pdb|3MH5|A Chain A, Htra Proteases Are Activated By A Conserved Mechanism That
Can Be Triggered By Distinct Molecular Cues
pdb|3MH5|B Chain B, Htra Proteases Are Activated By A Conserved Mechanism That
Can Be Triggered By Distinct Molecular Cues
pdb|3MH6|A Chain A, Htra Proteases Are Activated By A Conserved Mechanism That
Can Be Triggered By Distinct Molecular Cues
Length = 456
Score = 31.2 bits (69), Expect = 0.16, Method: Composition-based stats.
Identities = 18/48 (37%), Positives = 26/48 (54%)
Query: 26 EQAEAMGVEIYPGIPASEVLYHGDGSVKGIATGDVGIAKDGSPKDTFA 73
E A+AM V+ G S+VL + + GI GDV + +G P +FA
Sbjct: 275 ELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFA 322
>pdb|2ZLE|A Chain A, Cryo-Em Structure Of Degp12OMP
pdb|2ZLE|B Chain B, Cryo-Em Structure Of Degp12OMP
pdb|2ZLE|C Chain C, Cryo-Em Structure Of Degp12OMP
pdb|2ZLE|E Chain E, Cryo-Em Structure Of Degp12OMP
pdb|2ZLE|F Chain F, Cryo-Em Structure Of Degp12OMP
pdb|2ZLE|G Chain G, Cryo-Em Structure Of Degp12OMP
pdb|2ZLE|H Chain H, Cryo-Em Structure Of Degp12OMP
pdb|2ZLE|I Chain I, Cryo-Em Structure Of Degp12OMP
pdb|2ZLE|J Chain J, Cryo-Em Structure Of Degp12OMP
pdb|2ZLE|K Chain K, Cryo-Em Structure Of Degp12OMP
pdb|2ZLE|L Chain L, Cryo-Em Structure Of Degp12OMP
pdb|2ZLE|M Chain M, Cryo-Em Structure Of Degp12OMP
Length = 448
Score = 31.2 bits (69), Expect = 0.16, Method: Composition-based stats.
Identities = 18/48 (37%), Positives = 26/48 (54%)
Query: 26 EQAEAMGVEIYPGIPASEVLYHGDGSVKGIATGDVGIAKDGSPKDTFA 73
E A+AM V+ G S+VL + + GI GDV + +G P +FA
Sbjct: 275 ELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFA 322
>pdb|3MH4|A Chain A, Htra Proteases Are Activated By A Conserved Mechanism That
Can Be Triggered By Distinct Molecular Cues
pdb|3MH4|B Chain B, Htra Proteases Are Activated By A Conserved Mechanism That
Can Be Triggered By Distinct Molecular Cues
Length = 456
Score = 31.2 bits (69), Expect = 0.16, Method: Composition-based stats.
Identities = 18/48 (37%), Positives = 26/48 (54%)
Query: 26 EQAEAMGVEIYPGIPASEVLYHGDGSVKGIATGDVGIAKDGSPKDTFA 73
E A+AM V+ G S+VL + + GI GDV + +G P +FA
Sbjct: 275 ELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFA 322
>pdb|4A8D|A Chain A, Degp Dodecamer With Bound Omp
pdb|4A8D|B Chain B, Degp Dodecamer With Bound Omp
pdb|4A8D|C Chain C, Degp Dodecamer With Bound Omp
pdb|4A8D|D Chain D, Degp Dodecamer With Bound Omp
pdb|4A8D|E Chain E, Degp Dodecamer With Bound Omp
pdb|4A8D|F Chain F, Degp Dodecamer With Bound Omp
pdb|4A8D|G Chain G, Degp Dodecamer With Bound Omp
pdb|4A8D|H Chain H, Degp Dodecamer With Bound Omp
pdb|4A8D|I Chain I, Degp Dodecamer With Bound Omp
pdb|4A8D|J Chain J, Degp Dodecamer With Bound Omp
pdb|4A8D|K Chain K, Degp Dodecamer With Bound Omp
pdb|4A8D|L Chain L, Degp Dodecamer With Bound Omp
Length = 448
Score = 31.2 bits (69), Expect = 0.16, Method: Composition-based stats.
Identities = 18/48 (37%), Positives = 26/48 (54%)
Query: 26 EQAEAMGVEIYPGIPASEVLYHGDGSVKGIATGDVGIAKDGSPKDTFA 73
E A+AM V+ G S+VL + + GI GDV + +G P +FA
Sbjct: 275 ELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFA 322
>pdb|3OTP|A Chain A, Crystal Structure Of The Degp Dodecamer With A Model
Substrate
pdb|3OTP|B Chain B, Crystal Structure Of The Degp Dodecamer With A Model
Substrate
pdb|3OTP|C Chain C, Crystal Structure Of The Degp Dodecamer With A Model
Substrate
pdb|3OTP|D Chain D, Crystal Structure Of The Degp Dodecamer With A Model
Substrate
pdb|3OTP|E Chain E, Crystal Structure Of The Degp Dodecamer With A Model
Substrate
pdb|3OTP|F Chain F, Crystal Structure Of The Degp Dodecamer With A Model
Substrate
Length = 459
Score = 31.2 bits (69), Expect = 0.16, Method: Composition-based stats.
Identities = 18/48 (37%), Positives = 26/48 (54%)
Query: 26 EQAEAMGVEIYPGIPASEVLYHGDGSVKGIATGDVGIAKDGSPKDTFA 73
E A+AM V+ G S+VL + + GI GDV + +G P +FA
Sbjct: 275 ELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFA 322
>pdb|1MN8|A Chain A, Structure Of Moloney Murine Leukaemia Virus Matrix
Protein
pdb|1MN8|B Chain B, Structure Of Moloney Murine Leukaemia Virus Matrix
Protein
pdb|1MN8|C Chain C, Structure Of Moloney Murine Leukaemia Virus Matrix
Protein
pdb|1MN8|D Chain D, Structure Of Moloney Murine Leukaemia Virus Matrix
Protein
Length = 100
Score = 30.4 bits (67), Expect = 0.27, Method: Compositional matrix adjust.
Identities = 14/37 (37%), Positives = 20/37 (54%), Gaps = 4/37 (10%)
Query: 56 ATGDVGIAKDGSPKDTFARGMELHAKVTIFAEGCHGH 92
T +VG +DG TF R + K+ +F+ G HGH
Sbjct: 45 PTFNVGWPRDG----TFNRDLITQVKIKVFSPGPHGH 77
>pdb|4A8A|A Chain A, Asymmetric Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozyme
pdb|4A8A|B Chain B, Asymmetric Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozyme
pdb|4A8A|C Chain C, Asymmetric Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozyme
pdb|4A8A|D Chain D, Asymmetric Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozyme
pdb|4A8A|E Chain E, Asymmetric Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozyme
pdb|4A8A|F Chain F, Asymmetric Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozyme
pdb|4A8A|G Chain G, Asymmetric Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozyme
pdb|4A8A|H Chain H, Asymmetric Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozyme
pdb|4A8A|I Chain I, Asymmetric Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozyme
pdb|4A8A|J Chain J, Asymmetric Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozyme
pdb|4A8A|K Chain K, Asymmetric Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozyme
pdb|4A8A|L Chain L, Asymmetric Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozyme
pdb|4A8B|A Chain A, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozymes
pdb|4A8B|B Chain B, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozymes
pdb|4A8B|C Chain C, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozymes
pdb|4A8B|D Chain D, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozymes
pdb|4A8B|E Chain E, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozymes
pdb|4A8B|F Chain F, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozymes
pdb|4A8B|G Chain G, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozymes
pdb|4A8B|H Chain H, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozymes
pdb|4A8B|I Chain I, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozymes
pdb|4A8B|J Chain J, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozymes
pdb|4A8B|K Chain K, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozymes
pdb|4A8B|L Chain L, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With Lysozymes
pdb|4A8C|A Chain A, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With A Binding Peptide
pdb|4A8C|B Chain B, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With A Binding Peptide
pdb|4A8C|C Chain C, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With A Binding Peptide
pdb|4A8C|D Chain D, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With A Binding Peptide
pdb|4A8C|E Chain E, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With A Binding Peptide
pdb|4A8C|F Chain F, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With A Binding Peptide
pdb|4A8C|G Chain G, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With A Binding Peptide
pdb|4A8C|H Chain H, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With A Binding Peptide
pdb|4A8C|I Chain I, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With A Binding Peptide
pdb|4A8C|J Chain J, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With A Binding Peptide
pdb|4A8C|K Chain K, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With A Binding Peptide
pdb|4A8C|L Chain L, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 12-Mer
In Complex With A Binding Peptide
pdb|4A9G|A Chain A, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|B Chain B, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|C Chain C, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|D Chain D, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|E Chain E, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|F Chain F, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|G Chain G, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|H Chain H, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|I Chain I, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|J Chain J, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|K Chain K, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|L Chain L, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|M Chain M, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|N Chain N, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|O Chain O, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|P Chain P, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|Q Chain Q, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|R Chain R, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|S Chain S, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|T Chain T, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|U Chain U, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|V Chain V, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|W Chain W, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
pdb|4A9G|Y Chain Y, Symmetrized Cryo-Em Reconstruction Of E. Coli Degq 24-Mer
In Complex With Beta-Casein
Length = 436
Score = 29.3 bits (64), Expect = 0.56, Method: Composition-based stats.
Identities = 21/62 (33%), Positives = 34/62 (54%), Gaps = 5/62 (8%)
Query: 28 AEAMGVEIYPGIPASEVLYHGDGSVK-GIATGDVGIAKDGSPKDTFARGMELHAKVTIFA 86
A+A +++ G SEVL G GS K G+ GD+ + +G P ++FA EL +++
Sbjct: 254 AKAFNLDVQRGAFVSEVL-PGSGSAKAGVKAGDIITSLNGKPLNSFA---ELRSRIATTE 309
Query: 87 EG 88
G
Sbjct: 310 PG 311
>pdb|3STJ|A Chain A, Crystal Structure Of The Protease + Pdz1 Domain Of Degq
From Escherichia Coli
pdb|3STJ|B Chain B, Crystal Structure Of The Protease + Pdz1 Domain Of Degq
From Escherichia Coli
pdb|3STJ|C Chain C, Crystal Structure Of The Protease + Pdz1 Domain Of Degq
From Escherichia Coli
pdb|3STJ|D Chain D, Crystal Structure Of The Protease + Pdz1 Domain Of Degq
From Escherichia Coli
pdb|3STJ|E Chain E, Crystal Structure Of The Protease + Pdz1 Domain Of Degq
From Escherichia Coli
pdb|3STJ|F Chain F, Crystal Structure Of The Protease + Pdz1 Domain Of Degq
From Escherichia Coli
pdb|3STJ|G Chain G, Crystal Structure Of The Protease + Pdz1 Domain Of Degq
From Escherichia Coli
pdb|3STJ|H Chain H, Crystal Structure Of The Protease + Pdz1 Domain Of Degq
From Escherichia Coli
pdb|3STJ|I Chain I, Crystal Structure Of The Protease + Pdz1 Domain Of Degq
From Escherichia Coli
pdb|3STJ|J Chain J, Crystal Structure Of The Protease + Pdz1 Domain Of Degq
From Escherichia Coli
pdb|3STJ|K Chain K, Crystal Structure Of The Protease + Pdz1 Domain Of Degq
From Escherichia Coli
pdb|3STJ|L Chain L, Crystal Structure Of The Protease + Pdz1 Domain Of Degq
From Escherichia Coli
Length = 345
Score = 29.3 bits (64), Expect = 0.61, Method: Composition-based stats.
Identities = 21/62 (33%), Positives = 34/62 (54%), Gaps = 5/62 (8%)
Query: 28 AEAMGVEIYPGIPASEVLYHGDGSVK-GIATGDVGIAKDGSPKDTFARGMELHAKVTIFA 86
A+A +++ G SEVL G GS K G+ GD+ + +G P ++FA EL +++
Sbjct: 254 AKAFNLDVQRGAFVSEVL-PGSGSAKAGVKAGDIITSLNGKPLNSFA---ELRSRIATTE 309
Query: 87 EG 88
G
Sbjct: 310 PG 311
>pdb|1KY9|A Chain A, Crystal Structure Of Degp (Htra)
pdb|1KY9|B Chain B, Crystal Structure Of Degp (Htra)
pdb|3OU0|A Chain A, Re-Refined 3cs0
Length = 448
Score = 28.5 bits (62), Expect = 0.87, Method: Composition-based stats.
Identities = 17/48 (35%), Positives = 25/48 (52%)
Query: 26 EQAEAMGVEIYPGIPASEVLYHGDGSVKGIATGDVGIAKDGSPKDTFA 73
E A+A V+ G S+VL + + GI GDV + +G P +FA
Sbjct: 275 ELAKAXKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFA 322
>pdb|3MH7|A Chain A, Htra Proteases Are Activated By A Conserved Mechanism That
Can Be Triggered By Distinct Molecular Cues
Length = 456
Score = 28.5 bits (62), Expect = 0.88, Method: Composition-based stats.
Identities = 17/48 (35%), Positives = 25/48 (52%)
Query: 26 EQAEAMGVEIYPGIPASEVLYHGDGSVKGIATGDVGIAKDGSPKDTFA 73
E A+A V+ G S+VL + + GI GDV + +G P +FA
Sbjct: 275 ELAKAXKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFA 322
>pdb|3CS0|A Chain A, Crystal Structure Of Degp24
Length = 448
Score = 28.5 bits (62), Expect = 0.88, Method: Composition-based stats.
Identities = 17/48 (35%), Positives = 25/48 (52%)
Query: 26 EQAEAMGVEIYPGIPASEVLYHGDGSVKGIATGDVGIAKDGSPKDTFA 73
E A+A V+ G S+VL + + GI GDV + +G P +FA
Sbjct: 275 ELAKAXKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFA 322
>pdb|3IG4|A Chain A, Structure Of A Putative Aminopeptidase P From Bacillus
Anthracis
pdb|3IG4|B Chain B, Structure Of A Putative Aminopeptidase P From Bacillus
Anthracis
pdb|3IG4|C Chain C, Structure Of A Putative Aminopeptidase P From Bacillus
Anthracis
pdb|3IG4|D Chain D, Structure Of A Putative Aminopeptidase P From Bacillus
Anthracis
pdb|3IG4|E Chain E, Structure Of A Putative Aminopeptidase P From Bacillus
Anthracis
pdb|3IG4|F Chain F, Structure Of A Putative Aminopeptidase P From Bacillus
Anthracis
Length = 427
Score = 27.3 bits (59), Expect = 2.4, Method: Composition-based stats.
Identities = 18/47 (38%), Positives = 23/47 (48%), Gaps = 1/47 (2%)
Query: 19 HVVKWLGEQAEAMGVEIYPGIPASEVLYHGDGSVKGIATGDVGIAKD 65
H K L E +A+G+ I S+ YHG G+ T DVG KD
Sbjct: 312 HAKKVLAEGCKAVGL-IQEDEELSKYYYHGVSHFLGLDTHDVGTYKD 357
>pdb|2ODJ|A Chain A, Crystal Structure Of The Outer Membrane Protein Oprd From
Pseudomonas Aeruginosa
pdb|2ODJ|B Chain B, Crystal Structure Of The Outer Membrane Protein Oprd From
Pseudomonas Aeruginosa
Length = 428
Score = 26.6 bits (57), Expect = 3.8, Method: Composition-based stats.
Identities = 9/27 (33%), Positives = 16/27 (59%)
Query: 49 DGSVKGIATGDVGIAKDGSPKDTFARG 75
DG+ TG++ + DG P+D ++R
Sbjct: 74 DGTSDKTGTGNLPVXNDGKPRDDYSRA 100
>pdb|3UUF|A Chain A, Crystal Structure Of Mono- And Diacylglycerol Lipase From
Malassezia Globosa
Length = 278
Score = 26.2 bits (56), Expect = 4.5, Method: Compositional matrix adjust.
Identities = 20/59 (33%), Positives = 30/59 (50%), Gaps = 6/59 (10%)
Query: 24 LGEQAEAMGVEIYPGIPASEVLYHGDGSVKGIATGDVGIAKDGSPKDTFARGMELHAKV 82
LG Q + V IYPG S LY G +V GI T +A++ + D +G+ H ++
Sbjct: 212 LGYQHPSDYVWIYPGNSTSAKLYPGQENVHGILT----VAREFNFDD--HQGIYFHTQI 264
>pdb|3SY7|A Chain A, Improved Crystal Structure Of Pseudomonas Aeruginosa Oprd
Length = 428
Score = 26.2 bits (56), Expect = 4.5, Method: Composition-based stats.
Identities = 9/27 (33%), Positives = 16/27 (59%)
Query: 49 DGSVKGIATGDVGIAKDGSPKDTFARG 75
DG+ TG++ + DG P+D ++R
Sbjct: 74 DGTSDKTGTGNLPVMNDGKPRDDYSRA 100
>pdb|3UUE|A Chain A, Crystal Structure Of Mono- And Diacylglycerol Lipase From
Malassezia Globosa
Length = 279
Score = 26.2 bits (56), Expect = 4.7, Method: Compositional matrix adjust.
Identities = 20/59 (33%), Positives = 30/59 (50%), Gaps = 6/59 (10%)
Query: 24 LGEQAEAMGVEIYPGIPASEVLYHGDGSVKGIATGDVGIAKDGSPKDTFARGMELHAKV 82
LG Q + V IYPG S LY G +V GI T +A++ + D +G+ H ++
Sbjct: 213 LGYQHPSDYVWIYPGNSTSAKLYPGQENVHGILT----VAREFNFDD--HQGIYFHTQI 265
>pdb|3H8U|A Chain A, Crystal Structure Of Uncharacterized Conserved Protein
With Double- Stranded Beta-Helix Domain (Yp_001338853.1)
From Klebsiella Pneumoniae Subsp. Pneumoniae Mgh 78578
At 1.80 A Resolution
pdb|3H8U|B Chain B, Crystal Structure Of Uncharacterized Conserved Protein
With Double- Stranded Beta-Helix Domain (Yp_001338853.1)
From Klebsiella Pneumoniae Subsp. Pneumoniae Mgh 78578
At 1.80 A Resolution
Length = 125
Score = 26.2 bits (56), Expect = 5.0, Method: Compositional matrix adjust.
Identities = 22/79 (27%), Positives = 33/79 (41%), Gaps = 7/79 (8%)
Query: 20 VVKWLGEQAEAMGVEIYP------GIPASEVLYH-GDGSVKGIATGDVGIAKDGSPKDTF 72
VV W + + ++P + + E YH G+G V + GD+ IAK G
Sbjct: 41 VVVWHAHPGQEIASHVHPHGQDTWTVISGEAEYHQGNGIVTHLKAGDIAIAKPGQVHGAX 100
Query: 73 ARGMELHAKVTIFAEGCHG 91
G E V++ A G G
Sbjct: 101 NSGPEPFIFVSVVAPGNAG 119
>pdb|1QYD|A Chain A, Crystal Structures Of Pinoresinol-Lariciresinol And
Phenylcoumaran Benzylic Ether Reductases, And Their
Relationship To Isoflavone Reductases
pdb|1QYD|B Chain B, Crystal Structures Of Pinoresinol-Lariciresinol And
Phenylcoumaran Benzylic Ether Reductases, And Their
Relationship To Isoflavone Reductases
pdb|1QYD|C Chain C, Crystal Structures Of Pinoresinol-Lariciresinol And
Phenylcoumaran Benzylic Ether Reductases, And Their
Relationship To Isoflavone Reductases
pdb|1QYD|D Chain D, Crystal Structures Of Pinoresinol-Lariciresinol And
Phenylcoumaran Benzylic Ether Reductases, And Their
Relationship To Isoflavone Reductases
Length = 313
Score = 25.8 bits (55), Expect = 6.2, Method: Composition-based stats.
Identities = 18/52 (34%), Positives = 26/52 (50%), Gaps = 4/52 (7%)
Query: 40 PASEVLYHGDGSVKGIAT--GDVGIAKDGSPKD--TFARGMELHAKVTIFAE 87
P +VL +GDG+VKGI DVG S D T + M + + I ++
Sbjct: 178 PRDKVLIYGDGNVKGIWVDEDDVGTYTIKSIDDPQTLNKTMYIRPPMNILSQ 229
Database: pdbaa
Posted date: Mar 3, 2013 10:34 PM
Number of letters in database: 14,973,337
Number of sequences in database: 62,578
Lambda K H
0.319 0.137 0.421
Lambda K H
0.267 0.0410 0.140
Matrix: BLOSUM62
Gap Penalties: Existence: 11, Extension: 1
Number of Hits to DB: 3,347,889
Number of Sequences: 62578
Number of extensions: 131822
Number of successful extensions: 330
Number of sequences better than 100.0: 19
Number of HSP's better than 100.0 without gapping: 17
Number of HSP's successfully gapped in prelim test: 2
Number of HSP's that attempted gapping in prelim test: 313
Number of HSP's gapped (non-prelim): 19
length of query: 101
length of database: 14,973,337
effective HSP length: 67
effective length of query: 34
effective length of database: 10,780,611
effective search space: 366540774
effective search space used: 366540774
T: 11
A: 40
X1: 16 ( 7.4 bits)
X2: 38 (14.6 bits)
X3: 64 (24.7 bits)
S1: 41 (21.7 bits)
S2: 45 (21.9 bits)