RPS-BLAST 2.2.26 [Sep-21-2011]
Database: CDD.v3.10
44,354 sequences; 10,937,602 total letters
Searching..................................................done
Query= psy8412
(271 letters)
>gnl|CDD|187700 cd09276, Rnase_HI_RT_non_LTR, non-LTR RNase HI domain of reverse
transcriptases. Ribonuclease H (RNase H) is classified
into two families, type 1 (prokaryotic RNase HI,
eukaryotic RNase H1 and viral RNase H) and type 2
(prokaryotic RNase HII and HIII, and eukaryotic RNase
H2). Ribonuclease HI (RNase HI) is an endonuclease that
cleaves the RNA strand of an RNA/DNA hybrid in a
sequence non-specific manner. RNase H is widely present
in various organisms, including bacteria, archaea and
eukaryotes. RNase HI has also been observed as an
adjunct domain to the reverse transcriptase gene in
retroviruses, long-term repeat (LTR)-bearing
retrotransposons and non-LTR retrotransposons. RNase HI
in LTR retrotransposons perform degradation of the
original RNA template, generation of a polypurine tract
(the primer for plus-strand DNA synthesis), and final
removal of RNA primers from newly synthesized minus and
plus strands. The catalytic residues for RNase H
enzymatic activity, three aspartatic acids and one
glutamatic acid residue (DEDD), are unvaried across all
RNase H domains. The position of the RNase domain of
non-LTR and LTR transposons is at the carboxyl terminal
of the reverse transcriptase (RT) domain and their RNase
domains group together, indicating a common evolutionary
origin. Many non-LTR transposons have lost the RNase
domain because their activity is at the nucleus and
cellular RNase may suffice; however LTR retotransposons
always encode their own RNase domain because it requires
RNase activity in RNA-protein particles in the
cytoplasm. RNase H inhibitors have been explored as an
anti-HIV drug target because RNase H inactivation
inhibits reverse transcription.
Length = 128
Score = 121 bits (307), Expect = 5e-35
Identities = 45/128 (35%), Positives = 63/128 (49%), Gaps = 5/128 (3%)
Query: 15 ICFTDGSKTPDSTSCAFSI---GDVVHSTLLNPVNSIFSAELMAIFLCLEAILE--SPDH 69
+ +TDGSK T F+I G + S L P S+F AEL+AI L+ L
Sbjct: 1 VIYTDGSKLEGRTGAGFAIVRKGTISRSYKLGPYCSVFDAELLAILEALQLALREGRRAR 60
Query: 70 HFLIVSDSKSSLTALFNIRFTNPLISKVYSTWSFLKLNNKNVSFMWCPSHCGIRGNEIVD 129
I SDS+++L AL + R ++PL+ ++ L + V W P H GI GNE D
Sbjct: 61 KITIFSDSQAALKALRSPRSSSPLVLRIRKAIRELANHGVKVRLHWVPGHSGIEGNERAD 120
Query: 130 EAARNAAS 137
A+ AA
Sbjct: 121 RLAKEAAK 128
>gnl|CDD|215695 pfam00075, RNase_H, RNase H. RNase H digests the RNA strand of an
RNA/DNA hybrid. Important enzyme in retroviral
replication cycle, and often found as a domain
associated with reverse transcriptases. Structure is a
mixed alpha+beta fold with three a/b/a layers.
Length = 126
Score = 67.3 bits (165), Expect = 4e-14
Identities = 31/132 (23%), Positives = 49/132 (37%), Gaps = 13/132 (9%)
Query: 12 NHTICFTDGS--KTPDSTSCAFSIGDVVHSTLLNPVNSIFSAELMAIFLCLEAILESPDH 69
+TDGS P + + P + AEL+A+ LEA+
Sbjct: 2 EAVTVYTDGSCNGNPGPGGAGYVTDGGKQRSKPLPGTTNQRAELLALIEALEALSGQK-- 59
Query: 70 HFLIVSDSKSS----LTALFNIRFTNPLISKVYSTWSFLKLNNKNVSFMWCPSHCGIRGN 125
I +DS+ + P+ ++++ L V W P H GI GN
Sbjct: 60 -VNIYTDSQYVIGGITNGWPTKSESKPIKNEIW----ELLQKKHKVYIQWVPGHSGIPGN 114
Query: 126 EIVDEAARNAAS 137
E+ D+ A+ AS
Sbjct: 115 ELADKLAKQGAS 126
>gnl|CDD|187690 cd06222, RNase_H, RNase H is an endonuclease that cleaves the RNA
strand of an RNA/DNA hybrid in a sequence non-specific
manner. Ribonuclease H (RNase H) enzymes are divided
into two major families, Type 1 and Type 2, based on
amino acid sequence similarities and biochemical
properties. RNase H is an endonuclease that cleaves the
RNA strand of an RNA/DNA hybrid in a sequence
non-specific manner in the presence of divalent cations.
RNase H is widely present in various organisms,
including bacteria, archaea and eukaryotes. Most
prokaryotic and eukaryotic genomes contain multiple
RNase H genes. Despite the lack of amino acid sequence
homology, Type 1 and type 2 RNase H share a main-chain
fold and steric configurations of the four acidic
active-site residues and have the same catalytic
mechanism and functions in cells. RNase H is involved in
DNA replication, repair and transcription. One of the
important functions of RNase H is to remove Okazaki
fragments during DNA replication. RNase H inhibitors
have been explored as an anti-HIV drug target because
RNase H inactivation inhibits reverse transcription.
Length = 123
Score = 60.8 bits (148), Expect = 8e-12
Identities = 27/127 (21%), Positives = 45/127 (35%), Gaps = 11/127 (8%)
Query: 17 FTDGSKTPDSTSCAF-------SIGDVVHSTLLNPVNSIFSAELMAIFLCLEAILESPDH 69
TDGS + + +L P + AEL+A+ LE L+
Sbjct: 1 NTDGSCKGNPGPAGAGGVLRDHEGAWLFAGSLSIPAATNNEAELLALLEALELALDLGLK 60
Query: 70 HFLIVSDSKSSLTALFNIRFTNPLISKVYSTWSFLKLNNKNVSFMWCPSHCGIRGNEIVD 129
+I +DSK + + + + + L ++ F P GNE+ D
Sbjct: 61 KLIIETDSKYVVDLINSWSKGWKKNNLLLWDILLLLSKFIDIRFEHVPRE----GNEVAD 116
Query: 130 EAARNAA 136
A+ AA
Sbjct: 117 RLAKEAA 123
>gnl|CDD|187697 cd09273, RNase_HI_RT_Bel, Bel/Pao family of RNase HI in long-term
repeat retroelements. Ribonuclease H (RNase H) enzymes
are divided into two major families, Type 1 and Type 2,
based on amino acid sequence similarities and
biochemical properties. RNase H is an endonuclease that
cleaves the RNA strand of an RNA/DNA hybrid in a
sequence non-specific manner in the presence of divalent
cations. RNase H is widely present in various organisms,
including bacteria, archaea and eukaryote. RNase HI has
also been observed as adjunct domains to the reverse
transcriptase gene in retroviruses, in long-term repeat
(LTR)-bearing retrotransposons and non-LTR
retrotransposons. RNase HI in LTR retrotransposons
perform degradation of the original RNA template,
generation of a polypurine tract (the primer for
plus-strand DNA synthesis), and final removal of RNA
primers from newly synthesized minus and plus strands.
The catalytic residues for RNase H enzymatic activity,
three aspartatic acids and one glutamatic acid residue
(DEDD), are unvaried across all RNase H domains.
Phylogenetic patterns of RNase HI of LTR retroelements
is classified into five major families, Ty3/Gypsy,
Ty1/Copia, Bel/Pao, DIRS1 and the vertebrate
retroviruses. Bel/Pao family has been described only in
metazoan genomes. RNase H inhibitors have been explored
as an anti-HIV drug target because RNase H inactivation
inhibits reverse transcription.
Length = 135
Score = 50.7 bits (122), Expect = 3e-08
Identities = 32/138 (23%), Positives = 48/138 (34%), Gaps = 21/138 (15%)
Query: 16 CFTDGSKTPDSTSCA-FSIGDVVHSTLLNPVNSIFSAELMAIFLCLEAILESPDHHFLIV 74
FTDGS A + DV+ L S AEL+A+ + A+ + I
Sbjct: 2 VFTDGSSFVRKAGYAVVTGPDVLEIATLPYGTSAQRAELIAL---IRALELAKGKPVNIY 58
Query: 75 SDSK-------SSLTALFNIRFTNPLISKVYS----TWSFLKLNNKNVSFMWCPSHCG-- 121
+DS + T F + S ++ V+ + +H G
Sbjct: 59 TDSAYAFGILHALETIWKERGFLTGKPIALASLILQLQKAIQRPKP-VAVIHIRAHSGLP 117
Query: 122 ---IRGNEIVDEAARNAA 136
GN D+AAR AA
Sbjct: 118 GPLALGNARADQAARQAA 135
>gnl|CDD|187704 cd09280, RNase_HI_eukaryote_like, Eukaryotic RNase H is longer and
more complex than their prokaryotic counterparts and
unlike prokaryote, RNase H are essential in higher
eukaryote. Ribonuclease H (RNase H) is classified into
two families, type 1 (prokaryotic RNase HI, eukaryotic
RNase H1 and viral RNase H) and type 2 (prokaryotic
RNase HII and HIII, and eukaryotic RNase H2). RNase H is
an endonuclease that cleaves the RNA strand of an
RNA/DNA hybrid in a sequence non-specific manner. RNase
H is involved in DNA replication, repair and
transcription. One of the important functions of RNase H
is to remove Okazaki fragments during DNA replication.
RNase H is widely present in various organisms,
including bacteria, archaea and eukaryote and most
prokaryotic and eukaryotic genomes contain multiple
RNase H genes. Despite the lack of amino acid sequence
homology, Type 1 and type 2 RNase H share a main-chain
fold and steric configurations of the four acidic
active-site (DEDD) residues and have the same catalytic
mechanism and functions in cells. Eukaryotic RNase H is
longer and more complex than in prokaryotes. Almost all
eukaryotic RNase HI have highly conserved regions at the
N-terminal called hybrid binding domain (HBD). It is
speculated that the HBD contributes to binding the
RNA/DNA hybrid. Prokaryotes and some single-cell
eukaryotes do not require RNase H for viability, but
RNase H is essential in higher eukaryotes. RNase H
knockout mice lack mitochondrial DNA replication and die
as embryos.
Length = 150
Score = 41.0 bits (97), Expect = 1e-04
Identities = 26/111 (23%), Positives = 36/111 (32%), Gaps = 30/111 (27%)
Query: 51 AELMAIFLCLEAILES--PDHHFLIVSDSK---SSLTALFNIR------FTN-------- 91
AEL A+ L I E +I +DS+ + +T I +
Sbjct: 46 AELRAVIHALRLIKEVGEGLTKLVIATDSEYVVNGVT--EWIPKWKKNGWKTSKGKPVAN 103
Query: 92 -----PLISKVYSTWSFLKLNNKNVSFMWCPSHCGIRGNEIVDEAARNAAS 137
L + L+ V F P H GI GNE D A+ A
Sbjct: 104 KDLIKELDKLLEE----LEERGIRVKFWHVPGHSGIYGNEEADRLAKKGAD 150
>gnl|CDD|223405 COG0328, RnhA, Ribonuclease HI [DNA replication, recombination, and
repair].
Length = 154
Score = 40.4 bits (95), Expect = 2e-04
Identities = 23/99 (23%), Positives = 35/99 (35%), Gaps = 12/99 (12%)
Query: 51 AELMAIFLCLEAILESPDHHFLIVSDSKSSLTALFNIRFTNPLISKVYSTWSFLKL---- 106
AEL A+ LEA+ E + +DSK + + + +K
Sbjct: 46 AELRALIEALEALKELGACEVTLYTDSKYVVEGITRWIVKWKKNGWKTADKKPVKNKDLW 105
Query: 107 --------NNKNVSFMWCPSHCGIRGNEIVDEAARNAAS 137
++ V + W H G NE D+ AR AA
Sbjct: 106 EELDELLKRHELVFWEWVKGHAGHPENERADQLAREAAR 144
>gnl|CDD|187702 cd09278, RNase_HI_prokaryote_like, RNase HI family found mainly in
prokaryotes. Ribonuclease H (RNase H) is classified
into two evolutionarily unrelated families, type 1
(prokaryotic RNase HI, eukaryotic RNase H1 and viral
RNase H) and type 2 (prokaryotic RNase HII and HIII, and
eukaryotic RNase H2). RNase H is an endonuclease that
cleaves the RNA strand of an RNA/DNA hybrid in a
sequence non-specific manner. RNase H is involved in DNA
replication, repair and transcription. RNase H is widely
present in various organisms, including bacteria,
archaea and eukaryotes and most prokaryotic and
eukaryotic genomes contain multiple RNase H genes.
Despite the lack of amino acid sequence homology, Type 1
and type 2 RNase H share a main-chain fold and steric
configurations of the four acidic active-site (DEDD),
residues and have the same catalytic mechanism and
functions in cells. One of the important functions of
RNase H is to remove Okazaki fragments during DNA
replication. Prokaryotic RNase H varies greatly in
domain structures and substrate specificities.
Prokaryotes and some single-cell eukaryotes do not
require RNase H for viability.
Length = 139
Score = 39.0 bits (92), Expect = 5e-04
Identities = 13/31 (41%), Positives = 15/31 (48%)
Query: 106 LNNKNVSFMWCPSHCGIRGNEIVDEAARNAA 136
L V++ W H G GNE DE A AA
Sbjct: 108 LAKHQVTWHWVKGHAGHPGNERADELANAAA 138
>gnl|CDD|187701 cd09277, RNase_HI_bacteria_HBD, Bacterial RNase HI containing a
hybrid binding domain (HBD) at the N-terminus.
Ribonuclease H (RNase H) enzymes are divided into two
major families, Type 1 and Type 2, based on amino acid
sequence similarities and biochemical properties. RNase
H is an endonuclease that cleaves the RNA strand of an
RNA/DNA hybrid in a sequence non-specific manner in the
presence of divalent cations. RNase H is involved in
DNA replication, repair and transcription. RNase H is
widely present in various organisms, including bacteria,
archaea and eukaryotes and most prokaryotic and
eukaryotic genomes contain multiple RNase H genes.
Despite the lack of amino acid sequence homology, Type 1
and type 2 RNase H share a main-chain fold and steric
configurations of the four acidic active-site (DEDD)
residues and have the same catalytic mechanism and
functions in cells. One of the important functions of
RNase H is to remove Okazaki fragments during DNA
replication. Prokaryotic RNase H varies greatly in
domain structures and substrate specificities.
Prokaryotes and some single-cell eukaryotes do not
require RNase H for viability. Some bacteria
distinguished from other bacterial RNase HI in the
presence of a hybrid binding domain (HBD) at the
N-terminus which is commonly present at the N-termini of
eukaryotic RNase HI. It has been reported that this
domain is required for dimerization and processivity of
RNase HI upon binding to RNA-DNA hybrids.
Length = 133
Score = 34.8 bits (81), Expect = 0.014
Identities = 9/27 (33%), Positives = 16/27 (59%)
Query: 110 NVSFMWCPSHCGIRGNEIVDEAARNAA 136
+SF+ +H G + NE+ D+ A+ A
Sbjct: 107 KISFVKVKAHSGDKYNELADKLAKKAL 133
>gnl|CDD|178927 PRK00203, rnhA, ribonuclease H; Reviewed.
Length = 150
Score = 30.2 bits (69), Expect = 0.57
Identities = 10/27 (37%), Positives = 12/27 (44%)
Query: 110 NVSFMWCPSHCGIRGNEIVDEAARNAA 136
+ + W H G NE DE AR A
Sbjct: 114 QIKWHWVKGHAGHPENERCDELARAGA 140
>gnl|CDD|152066 pfam11630, DUF3254, Protein of unknown function (DUF3254). This
family of proteins is most likely a family of
anti-lipopolysaccharide factor proteins however this
cannot be confirmed.
Length = 97
Score = 29.3 bits (66), Expect = 0.68
Identities = 13/50 (26%), Positives = 21/50 (42%), Gaps = 10/50 (20%)
Query: 114 MWCPSHCGIRGN-------EIVDEAARNAA--SIDPYKLCTPEDLKPFIS 154
MWCP I G +V+ A R+ ++ L T E+ ++S
Sbjct: 49 MWCPGWTPITGESRTRSRSGVVEHAVRDFVQKALQ-AGLITEEEANAWLS 97
>gnl|CDD|178088 PLN02469, PLN02469, hydroxyacylglutathione hydrolase.
Length = 258
Score = 30.5 bits (69), Expect = 0.85
Identities = 15/60 (25%), Positives = 29/60 (48%), Gaps = 6/60 (10%)
Query: 127 IVDEAARNAASIDPYK----LCTPEDLKPFISFLIKSEWQNQWNHIPNTNKLKAIKPTIE 182
I+DE+ ++AA +DP L + I ++ + + W+H K+K + P I+
Sbjct: 17 IIDESTKDAAVVDPVDPEKVLQAAHEHGAKIKLVLTT--HHHWDHAGGNEKIKKLVPGIK 74
>gnl|CDD|223156 COG0078, ArgF, Ornithine carbamoyltransferase [Amino acid transport
and metabolism].
Length = 310
Score = 30.2 bits (69), Expect = 1.0
Identities = 13/36 (36%), Positives = 18/36 (50%), Gaps = 4/36 (11%)
Query: 104 LKLNNKNVSFMWC-PSHCGIRGNEIVDEAARNAASI 138
+ L + FM C P+H RG E+ DE AS+
Sbjct: 257 MALAGPDAIFMHCLPAH---RGEEVTDEVFEGPASV 289
>gnl|CDD|75628 PRK06548, PRK06548, ribonuclease H; Provisional.
Length = 161
Score = 29.0 bits (64), Expect = 1.6
Identities = 35/139 (25%), Positives = 58/139 (41%), Gaps = 14/139 (10%)
Query: 12 NHTICFTDGSK--TPDSTSCAFSIGDVVHSTLLNPVNSIFSAELMAIFLCLEAILESPDH 69
N I TDGS P + A+ + + + + + AEL A+ L A + D
Sbjct: 4 NEIIAATDGSSLANPGPSGWAWYVDENTWDSGGWDIATNNIAELTAVRELLIATRHT-DR 62
Query: 70 HFLIVSDSKSSLTALFNIRFT-----------NPLISKVYSTWSFLKLNNKNVSFMWCPS 118
LI+SDSK + +L ++ P++++ + N+N+ W +
Sbjct: 63 PILILSDSKYVINSLTKWVYSWKMRKWRKADGKPVLNQEIIQEIDSLMENRNIRMSWVNA 122
Query: 119 HCGIRGNEIVDEAARNAAS 137
H G NE D AR AA+
Sbjct: 123 HTGHPLNEAADSLARQAAN 141
>gnl|CDD|240146 cd05015, SIS_PGI_1, Phosphoglucose isomerase (PGI) contains two SIS
(Sugar ISomerase) domains. This classification is based
on the alignment of the first SIS domain. PGI is a
multifunctional enzyme which as an intracellular dimer
catalyzes the reversible isomerization of glucose
6-phosphate to fructose 6-phosphate. As an extracellular
protein, PGI also has functions equivalent to
neuroleukin (NLK), autocrine motility factor (AMF), and
maturation factor (MF). Evidence suggests that PGI, NLK,
AMF, and MF are closely related or identical. NLK is a
neurotrophic growth factor that promotes regeneration
and survival of neurons. The dimeric form of NLK has
isomerase function, whereas its monomeric form carries
out neurotrophic activity. AMF is a cytokine that
stimulates cell migration and metastasis. MF mediates
the differentiation of human myeloid leukemic HL-60
cells to terminal monocytic cells.
Length = 158
Score = 28.3 bits (64), Expect = 2.9
Identities = 12/55 (21%), Positives = 22/55 (40%), Gaps = 6/55 (10%)
Query: 39 STLLNPVNSIFS-AELMAIF-----LCLEAILESPDHHFLIVSDSKSSLTALFNI 87
+TL ++ + E +A EA + HF+ ++D+ S L I
Sbjct: 74 TTLFIVISKSGTTLETLANARLAREWLEEAGGDDLAKHFVAITDNGSGLLKKAGI 128
>gnl|CDD|237050 PRK12305, thrS, threonyl-tRNA synthetase; Reviewed.
Length = 575
Score = 28.6 bits (65), Expect = 3.7
Identities = 17/59 (28%), Positives = 27/59 (45%), Gaps = 9/59 (15%)
Query: 126 EIVDEAARNAASIDPYKLCTPEDLK-PFISFLIKSEWQNQW-----NHIPNTNKLKAIK 178
E+ E AR + +PYKL +D+ I+ ++ H+PNT +KA K
Sbjct: 76 EVSREEAREEFANEPYKLELIDDIPEEGITIYDNGDF---EDLCRGPHVPNTKFIKAFK 131
>gnl|CDD|188111 TIGR01132, pgm, phosphoglucomutase, alpha-D-glucose
phosphate-specific. This enzyme interconverts
alpha-D-glucose-1-P and alpha-D-glucose-6-P [Energy
metabolism, Sugars].
Length = 544
Score = 28.3 bits (63), Expect = 5.4
Identities = 17/68 (25%), Positives = 26/68 (38%), Gaps = 7/68 (10%)
Query: 86 NIRFTNPLISKVYSTWSFLKLNNKNVSFMWCPSHCGIRG----NEIVDEAARNAASIDPY 141
N+ NP + T+ F+ L+ M C S + G + D A N D +
Sbjct: 254 NLTLVNPQVD---PTFRFMTLDKDGKIRMDCSSPYAMAGLLALRDKYDLAFGNDPDYDRH 310
Query: 142 KLCTPEDL 149
+ TP L
Sbjct: 311 GIVTPAGL 318
>gnl|CDD|235539 PRK05638, PRK05638, threonine synthase; Validated.
Length = 442
Score = 28.2 bits (63), Expect = 5.5
Identities = 9/16 (56%), Positives = 11/16 (68%)
Query: 219 PPFCQCGAALSVILNY 234
PPFC CG L +I +Y
Sbjct: 16 PPFCICGELLEIIYDY 31
>gnl|CDD|185279 PRK15381, PRK15381, pathogenicity island 2 effector protein SseJ;
Provisional.
Length = 408
Score = 27.7 bits (61), Expect = 7.1
Identities = 16/44 (36%), Positives = 22/44 (50%)
Query: 15 ICFTDGSKTPDSTSCAFSIGDVVHSTLLNPVNSIFSAELMAIFL 58
+ F +G T S SC IGD V +T + S + +AIFL
Sbjct: 199 LNFAEGGSTSASYSCFNCIGDFVSNTDRQVASYTPSHQDLAIFL 242
>gnl|CDD|169397 PRK08350, PRK08350, hypothetical protein; Provisional.
Length = 341
Score = 27.5 bits (61), Expect = 8.3
Identities = 15/38 (39%), Positives = 19/38 (50%), Gaps = 1/38 (2%)
Query: 123 RGNEIVDEAARNAASIDPYKLCTPEDLKPFISFLIKSE 160
R I+D NA SI P L T DL ++ +KSE
Sbjct: 244 RTRNILDRRYYNALSIKPINLGTLTDLYNLVND-VKSE 280
>gnl|CDD|187873 cd09742, Csm6_III-A, CRISPR/Cas system-associated protein Csm6.
CRISPR (Clustered Regularly Interspaced Short
Palindromic Repeats) and associated Cas proteins
comprise a system for heritable host defense by
prokaryotic cells against phage and other foreign DNA;
Protein of this family often fused to HTH domain;
loosely associated with CRISPR/Cas systems; also known
as APE2256 family.
Length = 183
Score = 26.9 bits (60), Expect = 8.6
Identities = 11/28 (39%), Positives = 13/28 (46%), Gaps = 1/28 (3%)
Query: 50 SAELMAIFLCLEAILES-PDHHFLIVSD 76
SAEL +I LE D L+ SD
Sbjct: 39 SAELNSILSILERGKLGKDDELVLLASD 66
Database: CDD.v3.10
Posted date: Mar 20, 2013 7:55 AM
Number of letters in database: 10,937,602
Number of sequences in database: 44,354
Lambda K H
0.323 0.135 0.430
Gapped
Lambda K H
0.267 0.0696 0.140
Matrix: BLOSUM62
Gap Penalties: Existence: 11, Extension: 1
Number of Sequences: 44354
Number of Hits to DB: 13,471,342
Number of extensions: 1234263
Number of successful extensions: 1001
Number of sequences better than 10.0: 1
Number of HSP's gapped: 993
Number of HSP's successfully gapped: 24
Length of query: 271
Length of database: 10,937,602
Length adjustment: 95
Effective length of query: 176
Effective length of database: 6,723,972
Effective search space: 1183419072
Effective search space used: 1183419072
Neighboring words threshold: 11
Window for multiple hits: 40
X1: 16 ( 7.5 bits)
X2: 38 (14.6 bits)
X3: 64 (24.7 bits)
S1: 41 (22.0 bits)
S2: 58 (26.2 bits)