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= 046675
(186 letters)
Database: pdbaa
62,578 sequences; 14,973,337 total letters
Searching..................................................done
>pdb|1GME|A Chain A, Crystal Structure And Assembly Of An Eukaryotic Small Heat
Shock Protein
pdb|1GME|B Chain B, Crystal Structure And Assembly Of An Eukaryotic Small Heat
Shock Protein
pdb|1GME|C Chain C, Crystal Structure And Assembly Of An Eukaryotic Small Heat
Shock Protein
pdb|1GME|D Chain D, Crystal Structure And Assembly Of An Eukaryotic Small Heat
Shock Protein
Length = 151
Score = 79.0 bits (193), Expect = 1e-15, Method: Compositional matrix adjust.
Identities = 55/150 (36%), Positives = 73/150 (48%), Gaps = 13/150 (8%)
Query: 30 LMLYTQSPFFDMTFPMTEEPFRVLEQTPLTIVKVADHHQTLALARADLMETPTAHVITLD 89
+ + +S FD + +PF I A AR D ETP AHV D
Sbjct: 1 MSIVRRSNVFDPFADLWADPFDTFRSIVPAISGGGSETAAFANARMDWKETPEAHVFKAD 60
Query: 90 IPGMKKDN------------MKIEVEENREGVGEKWHRAERTFGKFWRQFRMPMSVDLEH 137
+PG+KK+ + E + +E +KWHR ER+ GKF R+FR+ +E
Sbjct: 61 LPGVKKEEVKVEVEDGNVLVVSGERTKEKEDKNDKWHRVERSSGKFVRRFRLLEDAKVEE 120
Query: 138 AKAHLENGVLRITVPKLAEEKKRQPKIINI 167
KA LENGVL +TVPK AE KK + K I I
Sbjct: 121 VKAGLENGVLTVTVPK-AEVKKPEVKAIQI 149
>pdb|2BYU|A Chain A, Negative Stain Em Reconstruction Of M.Tuberculosis
Acr1(Hsp 16.3) Fitted With Wheat Shsp Dimer
pdb|2BYU|B Chain B, Negative Stain Em Reconstruction Of M.Tuberculosis
Acr1(Hsp 16.3) Fitted With Wheat Shsp Dimer
pdb|2BYU|C Chain C, Negative Stain Em Reconstruction Of M.Tuberculosis
Acr1(Hsp 16.3) Fitted With Wheat Shsp Dimer
pdb|2BYU|D Chain D, Negative Stain Em Reconstruction Of M.Tuberculosis
Acr1(Hsp 16.3) Fitted With Wheat Shsp Dimer
pdb|2BYU|E Chain E, Negative Stain Em Reconstruction Of M.Tuberculosis
Acr1(Hsp 16.3) Fitted With Wheat Shsp Dimer
pdb|2BYU|F Chain F, Negative Stain Em Reconstruction Of M.Tuberculosis
Acr1(Hsp 16.3) Fitted With Wheat Shsp Dimer
pdb|2BYU|G Chain G, Negative Stain Em Reconstruction Of M.Tuberculosis
Acr1(Hsp 16.3) Fitted With Wheat Shsp Dimer
pdb|2BYU|H Chain H, Negative Stain Em Reconstruction Of M.Tuberculosis
Acr1(Hsp 16.3) Fitted With Wheat Shsp Dimer
pdb|2BYU|I Chain I, Negative Stain Em Reconstruction Of M.Tuberculosis
Acr1(Hsp 16.3) Fitted With Wheat Shsp Dimer
pdb|2BYU|J Chain J, Negative Stain Em Reconstruction Of M.Tuberculosis
Acr1(Hsp 16.3) Fitted With Wheat Shsp Dimer
pdb|2BYU|K Chain K, Negative Stain Em Reconstruction Of M.Tuberculosis
Acr1(Hsp 16.3) Fitted With Wheat Shsp Dimer
pdb|2BYU|L Chain L, Negative Stain Em Reconstruction Of M.Tuberculosis
Acr1(Hsp 16.3) Fitted With Wheat Shsp Dimer
Length = 101
Score = 70.5 bits (171), Expect = 5e-13, Method: Compositional matrix adjust.
Identities = 42/95 (44%), Positives = 54/95 (56%), Gaps = 12/95 (12%)
Query: 73 ARADLMETPTAHVITLDIPGMKKDN------------MKIEVEENREGVGEKWHRAERTF 120
AR D ETP AHV D+PG+KK+ + E + +E +KWHR ER+
Sbjct: 2 ARMDWKETPEAHVFKADLPGVKKEEVKVEVEDGNVLVVSGERTKEKEDKNDKWHRVERSS 61
Query: 121 GKFWRQFRMPMSVDLEHAKAHLENGVLRITVPKLA 155
GKF R+FR+ +E KA LENGVL +TVPK A
Sbjct: 62 GKFVRRFRLLEDAKVEEVKAGLENGVLTVTVPKAA 96
>pdb|2H50|A Chain A, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|B Chain B, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|C Chain C, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|D Chain D, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|E Chain E, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|F Chain F, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|G Chain G, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|H Chain H, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|I Chain I, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|J Chain J, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|K Chain K, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|L Chain L, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|M Chain M, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|N Chain N, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|O Chain O, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|P Chain P, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|Q Chain Q, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|R Chain R, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|S Chain S, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|T Chain T, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|U Chain U, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|V Chain V, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|W Chain W, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H50|X Chain X, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|A Chain A, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|B Chain B, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|C Chain C, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|D Chain D, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|E Chain E, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|F Chain F, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|G Chain G, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|H Chain H, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|I Chain I, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|J Chain J, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|K Chain K, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|L Chain L, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|M Chain M, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|N Chain N, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|O Chain O, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|P Chain P, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|Q Chain Q, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|R Chain R, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|S Chain S, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|T Chain T, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|U Chain U, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|V Chain V, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|W Chain W, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
pdb|2H53|X Chain X, Multiple Distinct Assemblies Reveal Conformational
Flexibility In The Small Heat Shock Protein Hsp26
Length = 93
Score = 68.9 bits (167), Expect = 2e-12, Method: Compositional matrix adjust.
Identities = 41/93 (44%), Positives = 53/93 (56%), Gaps = 12/93 (12%)
Query: 73 ARADLMETPTAHVITLDIPGMKKDN------------MKIEVEENREGVGEKWHRAERTF 120
AR D ETP AHV D+PG+KK+ + E + +E +KWHR ER+
Sbjct: 1 ARMDWKETPEAHVFKADLPGVKKEEVKVEVEDGNVLVVSGERTKEKEDKNDKWHRVERSS 60
Query: 121 GKFWRQFRMPMSVDLEHAKAHLENGVLRITVPK 153
GKF R+FR+ +E KA LENGVL +TVPK
Sbjct: 61 GKFVRRFRLLEDAKVEEVKAGLENGVLTVTVPK 93
>pdb|3GT6|A Chain A, Crystal Structure Of The Hspa From Xanthomonas Axonopodis
pdb|3GT6|B Chain B, Crystal Structure Of The Hspa From Xanthomonas Axonopodis
pdb|3GUF|A Chain A, Crystal Structure Of The Hspa From Xanthomonas Axonopodis
pdb|3GUF|B Chain B, Crystal Structure Of The Hspa From Xanthomonas Axonopodis
Length = 103
Score = 47.4 bits (111), Expect = 5e-06, Method: Compositional matrix adjust.
Identities = 31/93 (33%), Positives = 43/93 (46%), Gaps = 11/93 (11%)
Query: 72 LARADLMETPTAHVITLDIPG---------MKKDNMKIEVEENREGVGE--KWHRAERTF 120
+ R D+ E V+ D+PG M K + I E E E ++ R ER +
Sbjct: 7 VPRVDIKEEVNHFVLYADLPGIDPSQIEVQMDKGILSIRGERKSESSTETERFSRIERRY 66
Query: 121 GKFWRQFRMPMSVDLEHAKAHLENGVLRITVPK 153
G F R+F +P S D + A NGVL I +PK
Sbjct: 67 GSFHRRFALPDSADADGITAAGRNGVLEIRIPK 99
>pdb|3GLA|A Chain A, Crystal Structure Of The Hspa From Xanthomonas Axonopodis
pdb|3GLA|B Chain B, Crystal Structure Of The Hspa From Xanthomonas Axonopodis
Length = 100
Score = 47.0 bits (110), Expect = 6e-06, Method: Compositional matrix adjust.
Identities = 31/93 (33%), Positives = 43/93 (46%), Gaps = 11/93 (11%)
Query: 72 LARADLMETPTAHVITLDIPG---------MKKDNMKIEVEENREGVGE--KWHRAERTF 120
+ R D+ E V+ D+PG M K + I E E E ++ R ER +
Sbjct: 4 VPRVDIKEEVNHFVLYADLPGIDPSQIEVQMDKGILSIRGERKSESSTETERFSRIERRY 63
Query: 121 GKFWRQFRMPMSVDLEHAKAHLENGVLRITVPK 153
G F R+F +P S D + A NGVL I +PK
Sbjct: 64 GSFHRRFALPDSADADGITAAGRNGVLEIRIPK 96
>pdb|4FEI|A Chain A, Hsp17.7 From Deinococcus Radiodurans
Length = 102
Score = 35.8 bits (81), Expect = 0.015, Method: Compositional matrix adjust.
Identities = 27/87 (31%), Positives = 38/87 (43%), Gaps = 8/87 (9%)
Query: 75 ADLMETPTAHVITLDIPG-------MKKDNMKIEVEENREGVGEKWHRAERTFGKFWRQF 127
AD + T + LD+PG + +D ++ V R G E R+ER G+F R+
Sbjct: 9 ADWRDAGTHLDLLLDVPGVDAGTLALAEDGGQLTVSGERPGT-EHLLRSERPSGRFVREL 67
Query: 128 RMPMSVDLEHAKAHLENGVLRITVPKL 154
P V A L GVL + KL
Sbjct: 68 AFPEPVRPASGVASLAGGVLTVRFEKL 94
>pdb|4ELD|A Chain A, Crystal Structure Of An Activated Variant Of Small Heat
Shock Protein Hsp16.5
pdb|4ELD|B Chain B, Crystal Structure Of An Activated Variant Of Small Heat
Shock Protein Hsp16.5
Length = 161
Score = 35.0 bits (79), Expect = 0.026, Method: Compositional matrix adjust.
Identities = 17/47 (36%), Positives = 27/47 (57%), Gaps = 3/47 (6%)
Query: 122 KFWRQFRMPMSVDLEHAKAHLENGVLRITVPKLAEEKKRQPKIINID 168
+ +R ++P +V E+A A ENGVL + +PK K+ INI+
Sbjct: 118 EIYRTIKLPATVKEENASAKFENGVLSVILPKAESSIKKG---INIE 161
>pdb|1SHS|A Chain A, Small Heat Shock Protein From Methanococcus Jannaschii
pdb|1SHS|B Chain B, Small Heat Shock Protein From Methanococcus Jannaschii
pdb|1SHS|C Chain C, Small Heat Shock Protein From Methanococcus Jannaschii
pdb|1SHS|D Chain D, Small Heat Shock Protein From Methanococcus Jannaschii
pdb|1SHS|E Chain E, Small Heat Shock Protein From Methanococcus Jannaschii
pdb|1SHS|F Chain F, Small Heat Shock Protein From Methanococcus Jannaschii
pdb|1SHS|G Chain G, Small Heat Shock Protein From Methanococcus Jannaschii
pdb|1SHS|H Chain H, Small Heat Shock Protein From Methanococcus Jannaschii
Length = 147
Score = 34.7 bits (78), Expect = 0.032, Method: Compositional matrix adjust.
Identities = 17/47 (36%), Positives = 27/47 (57%), Gaps = 3/47 (6%)
Query: 122 KFWRQFRMPMSVDLEHAKAHLENGVLRITVPKLAEEKKRQPKIINID 168
+ +R ++P +V E+A A ENGVL + +PK K+ INI+
Sbjct: 104 EIYRTIKLPATVKEENASAKFENGVLSVILPKAESSIKKG---INIE 147
>pdb|3L1F|A Chain A, Bovine Alphaa Crystallin
Length = 103
Score = 29.3 bits (64), Expect = 1.5, Method: Compositional matrix adjust.
Identities = 19/75 (25%), Positives = 39/75 (52%), Gaps = 5/75 (6%)
Query: 85 VITLDIPGMKKDNMKIEVEENREGVGEKWHRAERTFG----KFWRQFRMPMSVDLEHAKA 140
VI LD+ +++ ++V+E+ + K + + G +F R++R+P +VD
Sbjct: 12 VIFLDVKHFSPEDLTVKVQEDFVEIHGKHNERQDDHGYISREFHRRYRLPSNVDQSALSC 71
Query: 141 HLE-NGVLRITVPKL 154
L +G+L + PK+
Sbjct: 72 SLSADGMLTFSGPKI 86
>pdb|3L1E|A Chain A, Bovine Alphaa Crystallin Zinc Bound
Length = 106
Score = 28.9 bits (63), Expect = 1.7, Method: Compositional matrix adjust.
Identities = 19/75 (25%), Positives = 39/75 (52%), Gaps = 5/75 (6%)
Query: 85 VITLDIPGMKKDNMKIEVEENREGVGEKWHRAERTFG----KFWRQFRMPMSVDLEHAKA 140
VI LD+ +++ ++V+E+ + K + + G +F R++R+P +VD
Sbjct: 15 VIFLDVKHFSPEDLTVKVQEDFVEIHGKHNERQDDHGYISREFHRRYRLPSNVDQSALSC 74
Query: 141 HLE-NGVLRITVPKL 154
L +G+L + PK+
Sbjct: 75 SLSADGMLTFSGPKI 89
>pdb|3CV9|A Chain A, Crystal Structure Of Vitamin D Hydroxylase Cytochrome P450
105a1 (R73aR84A MUTANT) IN COMPLEX WITH 1ALPHA,25-
Dihydroxyvitamin D3
Length = 412
Score = 26.9 bits (58), Expect = 5.9, Method: Compositional matrix adjust.
Identities = 25/97 (25%), Positives = 39/97 (40%), Gaps = 7/97 (7%)
Query: 56 TPLTIVKVADHHQTLALARADLMETPTA------HVITLDIPGMKKDNMKIEVEENREGV 109
T L+++ + DH + A RAD P A ++ DI G + IEVE
Sbjct: 253 TSLSVITLLDHPEQYAALRADRSLVPGAVEELLRYLAIADIAGGRVATADIEVEGQLIRA 312
Query: 110 GEKWHRAERTFGKFWRQFRMPMSVDLEH-AKAHLENG 145
GE + + P ++D+ A+ HL G
Sbjct: 313 GEGVIVVNSIANRDGTVYEDPDALDIHRSARHHLAFG 349
>pdb|2ZBX|A Chain A, Crystal Structure Of Vitamin D Hydroxylase Cytochrome P450
105a1 (Wild Type) With Imidazole Bound
Length = 412
Score = 26.9 bits (58), Expect = 5.9, Method: Compositional matrix adjust.
Identities = 25/97 (25%), Positives = 39/97 (40%), Gaps = 7/97 (7%)
Query: 56 TPLTIVKVADHHQTLALARADLMETPTA------HVITLDIPGMKKDNMKIEVEENREGV 109
T L+++ + DH + A RAD P A ++ DI G + IEVE
Sbjct: 253 TSLSVITLLDHPEQYAALRADRSLVPGAVEELLRYLAIADIAGGRVATADIEVEGQLIRA 312
Query: 110 GEKWHRAERTFGKFWRQFRMPMSVDLEH-AKAHLENG 145
GE + + P ++D+ A+ HL G
Sbjct: 313 GEGVIVVNSIANRDGTVYEDPDALDIHRSARHHLAFG 349
>pdb|3CV8|A Chain A, Crystal Structure Of Vitamin D Hydroxylase Cytochrome P450
105a1 (R84f Mutant)
Length = 412
Score = 26.9 bits (58), Expect = 6.0, Method: Compositional matrix adjust.
Identities = 25/97 (25%), Positives = 39/97 (40%), Gaps = 7/97 (7%)
Query: 56 TPLTIVKVADHHQTLALARADLMETPTA------HVITLDIPGMKKDNMKIEVEENREGV 109
T L+++ + DH + A RAD P A ++ DI G + IEVE
Sbjct: 253 TSLSVITLLDHPEQYAALRADRSLVPGAVEELLRYLAIADIAGGRVATADIEVEGQLIRA 312
Query: 110 GEKWHRAERTFGKFWRQFRMPMSVDLEH-AKAHLENG 145
GE + + P ++D+ A+ HL G
Sbjct: 313 GEGVIVVNSIANRDGTVYEDPDALDIHRSARHHLAFG 349
>pdb|2ZBY|A Chain A, Crystal Structure Of Vitamin D Hydroxylase Cytochrome P450
105a1 (R84a Mutant)
pdb|2ZBZ|A Chain A, Crystal Structure Of Vitamin D Hydroxylase Cytochrome P450
105a1 (R84a Mutant) In Complex With
1,25-Dihydroxyvitamin D3
Length = 412
Score = 26.9 bits (58), Expect = 6.1, Method: Compositional matrix adjust.
Identities = 25/97 (25%), Positives = 39/97 (40%), Gaps = 7/97 (7%)
Query: 56 TPLTIVKVADHHQTLALARADLMETPTA------HVITLDIPGMKKDNMKIEVEENREGV 109
T L+++ + DH + A RAD P A ++ DI G + IEVE
Sbjct: 253 TSLSVITLLDHPEQYAALRADRSLVPGAVEELLRYLAIADIAGGRVATADIEVEGQLIRA 312
Query: 110 GEKWHRAERTFGKFWRQFRMPMSVDLEH-AKAHLENG 145
GE + + P ++D+ A+ HL G
Sbjct: 313 GEGVIVVNSIANRDGTVYEDPDALDIHRSARHHLAFG 349
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
0.320 0.132 0.376
Lambda K H
0.267 0.0410 0.140
Matrix: BLOSUM62
Gap Penalties: Existence: 11, Extension: 1
Number of Hits to DB: 5,104,022
Number of Sequences: 62578
Number of extensions: 195411
Number of successful extensions: 438
Number of sequences better than 100.0: 14
Number of HSP's better than 100.0 without gapping: 8
Number of HSP's successfully gapped in prelim test: 6
Number of HSP's that attempted gapping in prelim test: 425
Number of HSP's gapped (non-prelim): 14
length of query: 186
length of database: 14,973,337
effective HSP length: 93
effective length of query: 93
effective length of database: 9,153,583
effective search space: 851283219
effective search space used: 851283219
T: 11
A: 40
X1: 16 ( 7.4 bits)
X2: 38 (14.6 bits)
X3: 64 (24.7 bits)
S1: 41 (21.8 bits)
S2: 48 (23.1 bits)