RPS-BLAST 2.2.26 [Sep-21-2011]
Database: CDD.v3.10
44,354 sequences; 10,937,602 total letters
Searching..................................................done
Query= psy724
(92 letters)
>gnl|CDD|214580 smart00242, MYSc, Myosin. Large ATPases. ATPase; molecular motor.
Muscle contraction consists of a cyclical interaction
between myosin and actin. The core of the myosin
structure is similar in fold to that of kinesin.
Length = 677
Score = 119 bits (302), Expect = 2e-33
Identities = 41/72 (56%), Positives = 52/72 (72%)
Query: 16 GFEQLCINYANEHLQYYFNQHVFQYEQEEYNKEGIRWRHIEFSDNTLCLQLVEGKPNGLL 75
FEQLCINYANE LQ +FNQHVF+ EQEEY +EGI W I+F DN C+ L+E KP G+L
Sbjct: 386 SFEQLCINYANEKLQQFFNQHVFKLEQEEYEREGIDWTFIDFFDNQDCIDLIEKKPPGIL 445
Query: 76 CVLDDQAKLLMA 87
+LD++ +
Sbjct: 446 SLLDEECRFPKG 457
>gnl|CDD|238681 cd01385, MYSc_type_IX, Myosin motor domain, type IX myosins. Myosin
IX is a processive single-headed motor, which might play
a role in signalling. This catalytic (head) domain has
ATPase activity and belongs to the larger group of
P-loop NTPases. Myosins are actin-dependent molecular
motors that play important roles in muscle contraction,
cell motility, and organelle transport. The head domain
is a molecular motor, which utilizes ATP hydrolysis to
generate directed movement toward the plus end along
actin filaments. A cyclical interaction between myosin
and actin provides the driving force. Rates of ATP
hydrolysis and consequently the speed of movement along
actin filaments vary widely, from about 0.04 micrometer
per second for myosin I to 4.5 micrometer per second for
myosin II in skeletal muscle. Myosin II moves in
discrete steps about 5-10 nm long and generates 1-5
piconewtons of force. Upon ATP binding, the myosin head
dissociates from an actin filament. ATP hydrolysis
causes the head to pivot and associate with a new actin
subunit. The release of Pi causes the head to pivot and
move the filament (power stroke). Release of ADP
completes the cycle.
Length = 692
Score = 119 bits (300), Expect = 4e-33
Identities = 43/66 (65%), Positives = 53/66 (80%)
Query: 17 FEQLCINYANEHLQYYFNQHVFQYEQEEYNKEGIRWRHIEFSDNTLCLQLVEGKPNGLLC 76
FEQLCINYANE LQYYFNQH+F+ EQEEY EGI W +IE++DN C+QL KP GLL
Sbjct: 395 FEQLCINYANEQLQYYFNQHIFKLEQEEYQGEGITWTNIEYTDNVGCIQLFSKKPTGLLY 454
Query: 77 VLDDQA 82
+LD+++
Sbjct: 455 LLDEES 460
>gnl|CDD|238071 cd00124, MYSc, Myosin motor domain. This catalytic (head) domain
has ATPase activity and belongs to the larger group of
P-loop NTPases. Myosins are actin-dependent molecular
motors that play important roles in muscle contraction,
cell motility, and organelle transport. The head domain
is a molecular motor, which utilizes ATP hydrolysis to
generate directed movement toward the plus end along
actin filaments. A cyclical interaction between myosin
and actin provides the driving force. Rates of ATP
hydrolysis and consequently the speed of movement along
actin filaments vary widely, from about 0.04 micrometer
per second for myosin I to 4.5 micrometer per second for
myosin II in skeletal muscle. Myosin II moves in
discrete steps about 5-10 nm long and generates 1-5
piconewtons of force. Upon ATP binding, the myosin head
dissociates from an actin filament. ATP hydrolysis
causes the head to pivot and associate with a new actin
subunit. The release of Pi causes the head to pivot and
move the filament (power stroke). Release of ADP
completes the cycle.
Length = 679
Score = 109 bits (275), Expect = 1e-29
Identities = 41/66 (62%), Positives = 51/66 (77%)
Query: 16 GFEQLCINYANEHLQYYFNQHVFQYEQEEYNKEGIRWRHIEFSDNTLCLQLVEGKPNGLL 75
FEQLCINYANE LQ +FNQHVF+ EQEEY +EGI W I+F+DN + L+E KP GLL
Sbjct: 379 SFEQLCINYANEKLQQFFNQHVFKLEQEEYQEEGIDWESIDFTDNQEVIDLIEKKPGGLL 438
Query: 76 CVLDDQ 81
+LD++
Sbjct: 439 SLLDEE 444
>gnl|CDD|238680 cd01384, MYSc_type_XI, Myosin motor domain, plant-specific type XI
myosin, involved in organelle transport. This catalytic
(head) domain has ATPase activity and belongs to the
larger group of P-loop NTPases. Myosins are
actin-dependent molecular motors that play important
roles in muscle contraction, cell motility, and
organelle transport. The head domain is a molecular
motor, which utilizes ATP hydrolysis to generate
directed movement toward the plus end along actin
filaments. A cyclical interaction between myosin and
actin provides the driving force. Rates of ATP
hydrolysis and consequently the speed of movement along
actin filaments vary widely, from about 0.04 micrometer
per second for myosin I to 4.5 micrometer per second for
myosin II in skeletal muscle. Myosin II moves in
discrete steps about 5-10 nm long and generates 1-5
piconewtons of force. Upon ATP binding, the myosin head
dissociates from an actin filament. ATP hydrolysis
causes the head to pivot and associate with a new actin
subunit. The release of Pi causes the head to pivot and
move the filament (power stroke). Release of ADP
completes the cycle.
Length = 674
Score = 106 bits (266), Expect = 2e-28
Identities = 38/69 (55%), Positives = 46/69 (66%)
Query: 16 GFEQLCINYANEHLQYYFNQHVFQYEQEEYNKEGIRWRHIEFSDNTLCLQLVEGKPNGLL 75
FEQ CIN NE LQ +FNQHVF+ EQEEY KE I W +IEF DN L L+E KP G++
Sbjct: 384 SFEQFCINLTNEKLQQHFNQHVFKMEQEEYTKEEIDWSYIEFVDNQDVLDLIEKKPGGII 443
Query: 76 CVLDDQAKL 84
+LD+
Sbjct: 444 ALLDEACMF 452
>gnl|CDD|215687 pfam00063, Myosin_head, Myosin head (motor domain).
Length = 679
Score = 106 bits (266), Expect = 2e-28
Identities = 38/70 (54%), Positives = 51/70 (72%), Gaps = 1/70 (1%)
Query: 16 GFEQLCINYANEHLQYYFNQHVFQYEQEEYNKEGIRWRHIEFS-DNTLCLQLVEGKPNGL 74
FEQLCINYANE LQ +FN H+F+ EQEEY +EGI W I++ DN C+ L+E KP G+
Sbjct: 380 SFEQLCINYANEKLQQFFNHHMFKLEQEEYVREGIAWTFIDYGLDNQACIDLIEKKPPGI 439
Query: 75 LCVLDDQAKL 84
L +LD++ +
Sbjct: 440 LSLLDEECRF 449
>gnl|CDD|238676 cd01380, MYSc_type_V, Myosin motor domain, type V myosins. Myosins
V transport a variety of intracellular cargo
processively along actin filaments, such as membraneous
organelles and mRNA. This catalytic (head) domain has
ATPase activity and belongs to the larger group of
P-loop NTPases. Myosins are actin-dependent molecular
motors that play important roles in muscle contraction,
cell motility, and organelle transport. The head domain
is a molecular motor, which utilizes ATP hydrolysis to
generate directed movement toward the plus end along
actin filaments. A cyclical interaction between myosin
and actin provides the driving force. Rates of ATP
hydrolysis and consequently the speed of movement along
actin filaments vary widely, from about 0.04 micrometer
per second for myosin I to 4.5 micrometer per second for
myosin II in skeletal muscle. Myosin II moves in
discrete steps about 5-10 nm long and generates 1-5
piconewtons of force. Upon ATP binding, the myosin head
dissociates from an actin filament. ATP hydrolysis
causes the head to pivot and associate with a new actin
subunit. The release of Pi causes the head to pivot and
move the filament (power stroke). Release of ADP
completes the cycle.
Length = 691
Score = 105 bits (265), Expect = 2e-28
Identities = 41/70 (58%), Positives = 50/70 (71%), Gaps = 1/70 (1%)
Query: 17 FEQLCINYANEHLQYYFNQHVFQYEQEEYNKEGIRWRHIEFSDNTLCLQLVEGKPNGLLC 76
FEQ CINYANE LQ FNQHVF+ EQEEY KEGI W I+F DN C+ L+E K G+L
Sbjct: 386 FEQFCINYANEKLQQQFNQHVFKLEQEEYLKEGIEWTFIDFYDNQPCIDLIESKL-GILS 444
Query: 77 VLDDQAKLLM 86
+LD++ +L
Sbjct: 445 LLDEECRLPK 454
>gnl|CDD|238677 cd01381, MYSc_type_VII, Myosin motor domain, type VII myosins.
Myosins in this group have been associated with
functions in sensory systems such as vision and hearing.
This catalytic (head) domain has ATPase activity and
belongs to the larger group of P-loop NTPases. Myosins
are actin-dependent molecular motors that play important
roles in muscle contraction, cell motility, and
organelle transport. The head domain is a molecular
motor, which utilizes ATP hydrolysis to generate
directed movement toward the plus end along actin
filaments. A cyclical interaction between myosin and
actin provides the driving force. Rates of ATP
hydrolysis and consequently the speed of movement along
actin filaments vary widely, from about 0.04 micrometer
per second for myosin I to 4.5 micrometer per second for
myosin II in skeletal muscle. Myosin II moves in
discrete steps about 5-10 nm long and generates 1-5
piconewtons of force. Upon ATP binding, the myosin head
dissociates from an actin filament. ATP hydrolysis
causes the head to pivot and associate with a new actin
subunit. The release of Pi causes the head to pivot and
move the filament (power stroke). Release of ADP
completes the cycle.
Length = 671
Score = 104 bits (262), Expect = 6e-28
Identities = 37/67 (55%), Positives = 51/67 (76%)
Query: 17 FEQLCINYANEHLQYYFNQHVFQYEQEEYNKEGIRWRHIEFSDNTLCLQLVEGKPNGLLC 76
FEQLCIN+ANE+LQ +F QH+F+ EQEEYN E I W+HIEF DN L L+ KP ++
Sbjct: 380 FEQLCINFANENLQQFFVQHIFKLEQEEYNLEHINWQHIEFVDNQDALDLIAIKPLNIMS 439
Query: 77 VLDDQAK 83
++D+++K
Sbjct: 440 LIDEESK 446
>gnl|CDD|227355 COG5022, COG5022, Myosin heavy chain [Cytoskeleton].
Length = 1463
Score = 99.8 bits (249), Expect = 4e-26
Identities = 40/73 (54%), Positives = 52/73 (71%), Gaps = 1/73 (1%)
Query: 16 GFEQLCINYANEHLQYYFNQHVFQYEQEEYNKEGIRWRHIEFSDNTLCLQLVEGK-PNGL 74
FEQLCINY NE LQ +FNQH+F+ EQEEY KEGI W I++ DN C+ L+E K P G+
Sbjct: 445 SFEQLCINYTNEKLQQFFNQHMFKLEQEEYVKEGIEWSFIDYFDNQPCIDLIEKKNPLGI 504
Query: 75 LCVLDDQAKLLMA 87
L +LD++ + A
Sbjct: 505 LSLLDEECVMPHA 517
>gnl|CDD|238683 cd01387, MYSc_type_XV, Myosin motor domain, type XV myosins. In
vertebrates, myosin XV appears to be expressed in
sensory tissue and play a role in hearing. This
catalytic (head) domain has ATPase activity and belongs
to the larger group of P-loop NTPases. Myosins are
actin-dependent molecular motors that play important
roles in muscle contraction, cell motility, and
organelle transport. The head domain is a molecular
motor, which utilizes ATP hydrolysis to generate
directed movement toward the plus end along actin
filaments. A cyclical interaction between myosin and
actin provides the driving force. Rates of ATP
hydrolysis and consequently the speed of movement along
actin filaments vary widely, from about 0.04 micrometer
per second for myosin I to 4.5 micrometer per second for
myosin II in skeletal muscle. Myosin II moves in
discrete steps about 5-10 nm long and generates 1-5
piconewtons of force. Upon ATP binding, the myosin head
dissociates from an actin filament. ATP hydrolysis
causes the head to pivot and associate with a new actin
subunit. The release of Pi causes the head to pivot and
move the filament (power stroke). Release of ADP
completes the cycle.
Length = 677
Score = 97.7 bits (243), Expect = 2e-25
Identities = 39/65 (60%), Positives = 48/65 (73%)
Query: 17 FEQLCINYANEHLQYYFNQHVFQYEQEEYNKEGIRWRHIEFSDNTLCLQLVEGKPNGLLC 76
FEQLCINYANE+LQY FN+ VFQ EQEEY +E + W I F+DN + L+ KP G+L
Sbjct: 379 FEQLCINYANENLQYLFNKIVFQEEQEEYIREQLDWTEIAFADNQPVINLISLKPYGILR 438
Query: 77 VLDDQ 81
+LDDQ
Sbjct: 439 ILDDQ 443
>gnl|CDD|238679 cd01383, MYSc_type_VIII, Myosin motor domain, plant-specific type
VIII myosins, a subgroup which has been associated with
endocytosis, cytokinesis, cell-to-cell coupling and
gating at plasmodesmata. This catalytic (head) domain
has ATPase activity and belongs to the larger group of
P-loop NTPases. Myosins are actin-dependent molecular
motors that play important roles in muscle contraction,
cell motility, and organelle transport. The head domain
is a molecular motor, which utilizes ATP hydrolysis to
generate directed movement toward the plus end along
actin filaments. A cyclical interaction between myosin
and actin provides the driving force. Rates of ATP
hydrolysis and consequently the speed of movement along
actin filaments vary widely, from about 0.04 micrometer
per second for myosin I to 4.5 micrometer per second for
myosin II in skeletal muscle. Myosin II moves in
discrete steps about 5-10 nm long and generates 1-5
piconewtons of force. Upon ATP binding, the myosin head
dissociates from an actin filament. ATP hydrolysis
causes the head to pivot and associate with a new actin
subunit. The release of Pi causes the head to pivot and
move the filament (power stroke). Release of ADP
completes the cycle.
Length = 677
Score = 96.0 bits (239), Expect = 7e-25
Identities = 39/69 (56%), Positives = 50/69 (72%)
Query: 16 GFEQLCINYANEHLQYYFNQHVFQYEQEEYNKEGIRWRHIEFSDNTLCLQLVEGKPNGLL 75
FEQ CINYANE LQ +FN+H+F+ EQEEY ++GI W +EF DN CL L E KP GLL
Sbjct: 382 SFEQFCINYANERLQQHFNRHLFKLEQEEYEEDGIDWTKVEFEDNQECLDLFEKKPLGLL 441
Query: 76 CVLDDQAKL 84
+LD+++
Sbjct: 442 SLLDEESTF 450
>gnl|CDD|238674 cd01378, MYSc_type_I, Myosin motor domain, type I myosins. Myosin I
generates movement at the leading edge in cell motility,
and class I myosins have been implicated in phagocytosis
and vesicle transport. Myosin I, an unconventional
myosin, does not form dimers. This catalytic (head)
domain has ATPase activity and belongs to the larger
group of P-loop NTPases. Myosins are actin-dependent
molecular motors that play important roles in muscle
contraction, cell motility, and organelle transport. The
head domain is a molecular motor, which utilizes ATP
hydrolysis to generate directed movement toward the plus
end along actin filaments. A cyclical interaction
between myosin and actin provides the driving force.
Rates of ATP hydrolysis and consequently the speed of
movement along actin filaments vary widely, from about
0.04 micrometer per second for myosin I to 4.5
micrometer per second for myosin II in skeletal muscle.
Myosin II moves in discrete steps about 5-10 nm long and
generates 1-5 piconewtons of force. Upon ATP binding,
the myosin head dissociates from an actin filament. ATP
hydrolysis causes the head to pivot and associate with a
new actin subunit. The release of Pi causes the head to
pivot and move the filament (power stroke). Release of
ADP completes the cycle.
Length = 674
Score = 88.4 bits (220), Expect = 4e-22
Identities = 33/66 (50%), Positives = 43/66 (65%), Gaps = 1/66 (1%)
Query: 16 GFEQLCINYANEHLQYYFNQHVFQYEQEEYNKEGIRWRHIEFSDNTLCLQLVEGK-PNGL 74
FEQ CINY NE LQ F + + EQEEY +EGI+W IE+ +N + L+EGK P G+
Sbjct: 383 SFEQFCINYVNEKLQQIFIELTLKAEQEEYVREGIKWTPIEYFNNKIVCDLIEGKRPPGI 442
Query: 75 LCVLDD 80
+LDD
Sbjct: 443 FSILDD 448
>gnl|CDD|238675 cd01379, MYSc_type_III, Myosin motor domain, type III myosins.
Myosin III has been shown to play a role in the vision
process in insects and in hearing in mammals. Myosin
III, an unconventional myosin, does not form dimers.
This catalytic (head) domain has ATPase activity and
belongs to the larger group of P-loop NTPases. Myosins
are actin-dependent molecular motors that play important
roles in muscle contraction, cell motility, and
organelle transport. The head domain is a molecular
motor, which utilizes ATP hydrolysis to generate
directed movement toward the plus end along actin
filaments. A cyclical interaction between myosin and
actin provides the driving force. Rates of ATP
hydrolysis and consequently the speed of movement along
actin filaments vary widely, from about 0.04 micrometer
per second for myosin I to 4.5 micrometer per second for
myosin II in skeletal muscle. Myosin II moves in
discrete steps about 5-10 nm long and generates 1-5
piconewtons of force. Upon ATP binding, the myosin head
dissociates from an actin filament. ATP hydrolysis
causes the head to pivot and associate with a new actin
subunit. The release of Pi causes the head to pivot and
move the filament (power stroke). Release of ADP
completes the cycle.
Length = 653
Score = 88.0 bits (218), Expect = 5e-22
Identities = 36/67 (53%), Positives = 49/67 (73%)
Query: 17 FEQLCINYANEHLQYYFNQHVFQYEQEEYNKEGIRWRHIEFSDNTLCLQLVEGKPNGLLC 76
FEQLCIN ANE +QYYFNQH+F +EQ+EY EG+ R +E+ DN L + KP GLL
Sbjct: 391 FEQLCINIANEQIQYYFNQHIFAWEQQEYLNEGVDARLVEYEDNRPLLDMFLQKPLGLLA 450
Query: 77 VLDDQAK 83
+LD++++
Sbjct: 451 LLDEESR 457
>gnl|CDD|238673 cd01377, MYSc_type_II, Myosin motor domain, type II myosins. Myosin
II mediates cortical contraction in cell motility, and
is the motor in smooth and skeletal muscle. This
catalytic (head) domain has ATPase activity and belongs
to the larger group of P-loop NTPases. Myosins are
actin-dependent molecular motors that play important
roles in muscle contraction, cell motility, and
organelle transport. The head domain is a molecular
motor, which utilizes ATP hydrolysis to generate
directed movement toward the plus end along actin
filaments. A cyclical interaction between myosin and
actin provides the driving force. Rates of ATP
hydrolysis and consequently the speed of movement along
actin filaments vary widely, from about 0.04 micrometer
per second for myosin I to 4.5 micrometer per second for
myosin II in skeletal muscle. Myosin II moves in
discrete steps about 5-10 nm long and generates 1-5
piconewtons of force. Upon ATP binding, the myosin head
dissociates from an actin filament. ATP hydrolysis
causes the head to pivot and associate with a new actin
subunit. The release of Pi causes the head to pivot and
move the filament (power stroke). Release of ADP
completes the cycle.
Length = 693
Score = 88.0 bits (219), Expect = 6e-22
Identities = 35/67 (52%), Positives = 45/67 (67%), Gaps = 1/67 (1%)
Query: 16 GFEQLCINYANEHLQYYFNQHVFQYEQEEYNKEGIRWRHIEFS-DNTLCLQLVEGKPNGL 74
FEQLCINY NE LQ +FN H+F EQEEY +EGI W I+F D + L+E P G+
Sbjct: 391 SFEQLCINYTNEKLQQFFNHHMFVLEQEEYQREGIEWTFIDFGLDLQPTIDLIEKNPMGI 450
Query: 75 LCVLDDQ 81
L +LD++
Sbjct: 451 LSLLDEE 457
>gnl|CDD|238678 cd01382, MYSc_type_VI, Myosin motor domain, type VI myosins. Myosin
VI is a monomeric myosin, which moves towards the
minus-end of actin filaments, in contrast to most other
myosins. It has been implicated in endocytosis,
secretion, and cell migration. This catalytic (head)
domain has ATPase activity and belongs to the larger
group of P-loop NTPases. Myosins are actin-dependent
molecular motors that play important roles in muscle
contraction, cell motility, and organelle transport. The
head domain is a molecular motor, which utilizes ATP
hydrolysis to generate directed movement toward the
minus end along actin filaments. A cyclical interaction
between myosin and actin provides the driving force.
Rates of ATP hydrolysis and consequently the speed of
movement along actin filaments vary widely, from about
0.04 micrometer per second for myosin I to 4.5
micrometer per second for myosin II in skeletal muscle.
Myosin II moves in discrete steps about 5-10 nm long and
generates 1-5 piconewtons of force. Upon ATP binding,
the myosin head dissociates from an actin filament. ATP
hydrolysis causes the head to pivot and associate with a
new actin subunit. The release of Pi causes the head to
pivot and move the filament (power stroke). Release of
ADP completes the cycle.
Length = 717
Score = 86.0 bits (213), Expect = 2e-21
Identities = 31/68 (45%), Positives = 46/68 (67%)
Query: 17 FEQLCINYANEHLQYYFNQHVFQYEQEEYNKEGIRWRHIEFSDNTLCLQLVEGKPNGLLC 76
FEQ CINY NE LQ +FN+ + + EQE Y +EG+ + + DN C+ L+E K NG+L
Sbjct: 415 FEQFCINYCNEKLQQFFNERILKEEQELYQREGLGVNEVHYVDNQDCIDLIEAKLNGILD 474
Query: 77 VLDDQAKL 84
+LD++ +L
Sbjct: 475 ILDEENRL 482
>gnl|CDD|240229 PTZ00014, PTZ00014, myosin-A; Provisional.
Length = 821
Score = 58.5 bits (142), Expect = 1e-11
Identities = 31/85 (36%), Positives = 44/85 (51%), Gaps = 12/85 (14%)
Query: 5 IGIISLFMLILGFE--------QLCINYANEHLQYYFNQHVFQYEQEEYNKEGIRWRHIE 56
IG++ +F GFE QL IN NE LQ F VF+ E + Y EGI +E
Sbjct: 464 IGMLDIF----GFEVFKNNSLEQLFINITNEMLQKNFVDIVFERESKLYKDEGISTEELE 519
Query: 57 FSDNTLCLQLVEGKPNGLLCVLDDQ 81
++ N + L+ GK +L +L+DQ
Sbjct: 520 YTSNESVIDLLCGKGKSVLSILEDQ 544
>gnl|CDD|238682 cd01386, MYSc_type_XVIII, Myosin motor domain, type XVIII myosins.
This catalytic (head) domain has ATPase activity and
belongs to the larger group of P-loop NTPases. Myosins
are actin-dependent molecular motors that play important
roles in muscle contraction, cell motility, and
organelle transport. The head domain is a molecular
motor, which utilizes ATP hydrolysis to generate
directed movement toward the plus end along actin
filaments. A cyclical interaction between myosin and
actin provides the driving force. Rates of ATP
hydrolysis and consequently the speed of movement along
actin filaments vary widely, from about 0.04 micrometer
per second for myosin I to 4.5 micrometer per second for
myosin II in skeletal muscle. Myosin II moves in
discrete steps about 5-10 nm long and generates 1-5
piconewtons of force. Upon ATP binding, the myosin head
dissociates from an actin filament. ATP hydrolysis
causes the head to pivot and associate with a new actin
subunit. The release of Pi causes the head to pivot and
move the filament (power stroke). Release of ADP
completes the cycle.
Length = 767
Score = 39.8 bits (93), Expect = 5e-05
Identities = 21/63 (33%), Positives = 29/63 (46%), Gaps = 10/63 (15%)
Query: 17 FEQLCINYANEHLQYYFNQHVFQYEQEEYNKEGIRWRHIEFSDNTLCLQLVEGKPNGLLC 76
FE+LC NY E LQ F+ F E Y +EG+ +EF L E P +
Sbjct: 397 FEELCHNYLQERLQLLFHHRTFVQPLERYAEEGVE---VEFD-------LAEPSPGTTVA 446
Query: 77 VLD 79
++D
Sbjct: 447 LVD 449
>gnl|CDD|225789 COG3250, LacZ, Beta-galactosidase/beta-glucuronidase [Carbohydrate
transport and metabolism].
Length = 808
Score = 27.4 bits (61), Expect = 0.96
Identities = 13/78 (16%), Positives = 21/78 (26%), Gaps = 2/78 (2%)
Query: 8 ISLFMLILGFEQLCINYANEHLQYYFNQHVFQYEQEEYNKEGIRWRHIEFSDNTLCLQLV 67
L + G ++ A Y + Q E + E S+ + LV
Sbjct: 599 WQLNDVPPGASWSSLDEALRPKALYLTRRFTQPELTAW-SEAAADGQFTLSEVSAAPLLV 657
Query: 68 EGKPNGLLCVLDDQAKLL 85
E L D +
Sbjct: 658 ED-ERLLQVEGDGKRLQF 674
>gnl|CDD|224403 COG1486, CelF, Alpha-galactosidases/6-phospho-beta-glucosidases,
family 4 of glycosyl hydrolases [Carbohydrate transport
and metabolism].
Length = 442
Score = 27.2 bits (61), Expect = 1.2
Identities = 12/55 (21%), Positives = 22/55 (40%), Gaps = 4/55 (7%)
Query: 25 ANEHLQYYFNQHVFQYEQEEYNKEGIR---WRHIEFSDNTLCLQ-LVEGKPNGLL 75
++ H YY+ + + + +E K G R E L + ++ KP L
Sbjct: 255 SSYHRYYYYPYDMKEKKPDEIEKFGTRANEVMKREKELFELYKKPELKEKPEELE 309
>gnl|CDD|213621 TIGR01434, glu_cys_ligase, glutamate--cysteine ligase. Alternate
name: gamma-glutamylcysteine synthetase. This model
represents glutamate--cysteine ligase, and enzyme in the
biosynthesis of glutathione (GSH). GSH is one of several
low molecular weight cysteine derivatives that can serve
to protect against oxidative damage and participate in a
biosynthetic or detoxification reactions [Biosynthesis
of cofactors, prosthetic groups, and carriers,
Glutathione and analogs].
Length = 512
Score = 27.1 bits (60), Expect = 1.3
Identities = 7/41 (17%), Positives = 16/41 (39%)
Query: 11 FMLILGFEQLCINYANEHLQYYFNQHVFQYEQEEYNKEGIR 51
M+ G + +A + + + + + EQE + E
Sbjct: 449 SMIDTGIGGTGLAFAEAYRELFREEPLEILEQERFEAERSA 489
>gnl|CDD|215552 PLN03051, PLN03051, acyl-activating enzyme; Provisional.
Length = 499
Score = 26.3 bits (58), Expect = 2.4
Identities = 9/30 (30%), Positives = 15/30 (50%), Gaps = 1/30 (3%)
Query: 3 PIIGIISLFMLILGFEQLCINYANEHLQYY 32
P +G ++L +LG +N A+ YY
Sbjct: 317 PCVGEVALAPPMLGASDRLLN-ADHDKVYY 345
>gnl|CDD|236629 PRK09849, PRK09849, putative oxidoreductase; Provisional.
Length = 702
Score = 25.8 bits (57), Expect = 3.9
Identities = 8/23 (34%), Positives = 9/23 (39%), Gaps = 3/23 (13%)
Query: 34 NQHV---FQYEQEEYNKEGIRWR 53
N HV EY+ G RW
Sbjct: 234 NNHVVPSTPQSWAEYSDPGSRWT 256
>gnl|CDD|200594 cd10972, CE4_DAC_u3_5s, Putative catalytic NodB homology domain
of uncharacterized bacterial polysaccharide
deacetylases which consist of a 5-stranded beta/alpha
barrel. This family contains uncharacterized bacterial
polysaccharide deacetylases. Although their biological
functions remain unknown, all members of the family are
predicted to contain a conserved domain with a
5-stranded beta/alpha barrel, which is similar to the
catalytic NodB homology domain of rhizobial NodB-like
proteins, belonging to the larger carbohydrate esterase
4 (CE4) superfamily.
Length = 216
Score = 25.4 bits (56), Expect = 4.2
Identities = 8/22 (36%), Positives = 13/22 (59%)
Query: 31 YYFNQHVFQYEQEEYNKEGIRW 52
+Y N F + Q EY ++ +RW
Sbjct: 55 FYVNPGPFGFGQPEYAEQKLRW 76
>gnl|CDD|221303 pfam11902, DUF3422, Protein of unknown function (DUF3422). This
family of proteins are functionally uncharacterized.
This protein is found in bacteria, archaea and
eukaryotes. Proteins in this family are typically
between 426 to 444 amino acids in length.
Length = 419
Score = 25.2 bits (56), Expect = 5.3
Identities = 9/24 (37%), Positives = 11/24 (45%), Gaps = 1/24 (4%)
Query: 49 GIRW-RHIEFSDNTLCLQLVEGKP 71
+RW RH EFS T +P
Sbjct: 74 RLRWERHTEFSTYTFFRPGPGDEP 97
>gnl|CDD|181655 PRK09110, PRK09110, flagellar motor protein MotA; Validated.
Length = 283
Score = 25.1 bits (56), Expect = 6.1
Identities = 6/16 (37%), Positives = 8/16 (50%)
Query: 1 MFPIIGIISLFMLILG 16
M IIG I + + G
Sbjct: 1 MLIIIGYIVVLGSVFG 16
>gnl|CDD|233412 TIGR01438, TGR, thioredoxin and glutathione reductase
selenoprotein. This homodimeric, FAD-containing member
of the pyridine nucleotide disulfide oxidoreductase
family contains a C-terminal motif Cys-SeCys-Gly, where
SeCys is selenocysteine encoded by TGA (in some sequence
reports interpreted as a stop codon). In some members of
this subfamily, Cys-SeCys-Gly is replaced by
Cys-Cys-Gly. The reach of the selenium atom at the
C-term arm of the protein is proposed to allow broad
substrate specificity.
Length = 484
Score = 24.8 bits (54), Expect = 7.6
Identities = 13/50 (26%), Positives = 27/50 (54%), Gaps = 1/50 (2%)
Query: 12 MLILGFEQLCINYANEHLQYYFNQHVFQYEQEEYNKEGIRWRHIEFSDNT 61
+L+ GF+Q C N EH++ + + Q+ + + + +EF+D+T
Sbjct: 213 ILLRGFDQDCANKVGEHMEEHGVKFKRQFVPIKVEQIEAK-VLVEFTDST 261
>gnl|CDD|223824 COG0753, KatE, Catalase [Inorganic ion transport and metabolism].
Length = 496
Score = 25.0 bits (55), Expect = 7.6
Identities = 7/26 (26%), Positives = 8/26 (30%)
Query: 35 QHVFQYEQEEYNKEGIRWRHIEFSDN 60
Q F E + R R I D
Sbjct: 405 QPGFVEPPERVEGDKQRRRAISDDDY 430
>gnl|CDD|223961 COG1030, NfeD, Membrane-bound serine protease (ClpP class)
[Posttranslational modification, protein turnover,
chaperones].
Length = 436
Score = 24.6 bits (54), Expect = 9.1
Identities = 10/22 (45%), Positives = 12/22 (54%)
Query: 4 IIGIISLFMLILGFEQLCINYA 25
IIG I L + G L IN+A
Sbjct: 262 IIGAILLLLGFYGLLFLGINWA 283
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
0.327 0.145 0.448
Gapped
Lambda K H
0.267 0.0809 0.140
Matrix: BLOSUM62
Gap Penalties: Existence: 11, Extension: 1
Number of Sequences: 44354
Number of Hits to DB: 4,714,914
Number of extensions: 377511
Number of successful extensions: 536
Number of sequences better than 10.0: 1
Number of HSP's gapped: 533
Number of HSP's successfully gapped: 34
Length of query: 92
Length of database: 10,937,602
Length adjustment: 59
Effective length of query: 33
Effective length of database: 8,320,716
Effective search space: 274583628
Effective search space used: 274583628
Neighboring words threshold: 11
Window for multiple hits: 40
X1: 15 ( 7.1 bits)
X2: 38 (14.6 bits)
X3: 64 (24.7 bits)
S1: 40 (21.7 bits)
S2: 53 (24.0 bits)