Query 017677
Match_columns 368
No_of_seqs 287 out of 1221
Neff 4.2
Searched_HMMs 46136
Date Fri Mar 29 02:28:59 2013
Command hhsearch -i /work/01045/syshi/csienesis_hhblits_a3m/017677.a3m -d /work/01045/syshi/HHdatabase/Cdd.hhm -o /work/01045/syshi/hhsearch_cdd/017677hhsearch_cdd -cpu 12 -v 0
No Hit Prob E-value P-value Score SS Cols Query HMM Template HMM
1 PF03106 WRKY: WRKY DNA -bindi 100.0 3.3E-32 7.2E-37 208.6 0.7 59 271-329 1-59 (60)
2 smart00774 WRKY DNA binding do 100.0 7.4E-31 1.6E-35 201.0 3.6 58 271-328 1-59 (59)
3 PF03106 WRKY: WRKY DNA -bindi 100.0 4.9E-30 1.1E-34 196.7 -0.3 59 102-160 1-60 (60)
4 smart00774 WRKY DNA binding do 99.9 7.9E-29 1.7E-33 189.8 3.3 57 102-158 1-59 (59)
5 PF04500 FLYWCH: FLYWCH zinc f 91.4 0.059 1.3E-06 39.3 0.1 49 270-328 11-62 (62)
6 PF03101 FAR1: FAR1 DNA-bindin 89.7 0.15 3.3E-06 40.5 1.0 31 300-331 60-90 (91)
7 PF04500 FLYWCH: FLYWCH zinc f 86.9 0.12 2.6E-06 37.7 -1.1 49 101-158 11-62 (62)
8 PF03101 FAR1: FAR1 DNA-bindin 68.9 3.2 7E-05 32.8 1.8 30 131-160 60-89 (91)
9 PLN03097 FHY3 Protein FAR-RED 28.8 47 0.001 37.9 3.1 36 297-333 156-191 (846)
10 PLN03097 FHY3 Protein FAR-RED 28.4 40 0.00087 38.4 2.5 35 128-162 156-190 (846)
11 PF03859 CG-1: CG-1 domain; I 26.3 24 0.00052 31.2 0.2 9 102-110 51-59 (118)
No 1
>PF03106 WRKY: WRKY DNA -binding domain; InterPro: IPR003657 The WRKY domain is a 60 amino acid region that is defined by the conserved amino acid sequence WRKYGQK at its N-terminal end, together with a novel zinc-finger- like motif. The WRKY domain is found in one or two copies in a superfamily of plant transcription factors involved in the regulation of various physiological programs that are unique to plants, including pathogen defence, senescence, trichome development and the biosynthesis of secondary metabolites. The WRKY domain binds specifically to the DNA sequence motif (T)(T)TGAC(C/T), which is known as the W box. The invariant TGAC core of the W box is essential for function and WRKY binding []. Some proteins known to contain a WRKY domain include Arabidopsis thaliana ZAP1 (Zinc-dependent Activator Protein-1) and AtWRKY44/TTG2, a protein involved in trichome development and anthocyanin pigmentation; and wild oat ABF1-2, two proteins involved in the gibberelic acid-induced expression of the alpha-Amy2 gene. Structural studies indicate that this domain is a four-stranded beta-sheet with a zinc binding pocket, forming a novel zinc and DNA binding structure []. The WRKYGQK residues correspond to the most N-terminal beta-strand, which enables extensive hydrophobic interactions, contributing to the structural stability of the beta-sheet.; GO: 0003700 sequence-specific DNA binding transcription factor activity, 0043565 sequence-specific DNA binding, 0006355 regulation of transcription, DNA-dependent; PDB: 2AYD_A 1WJ2_A 2LEX_A.
Probab=99.97 E-value=3.3e-32 Score=208.65 Aligned_cols=59 Identities=66% Similarity=1.301 Sum_probs=52.6
Q ss_pred ccccchhhhcCCcccCCCCCCCccccccCCCCCcccchhhhcCCCCEEEEEEeccCCCC
Q 017677 271 LDDGYRWRKYGQKVVKGNPNPRSYYKCTTTGCPVRKHVERASHDMRAVITTYEGKHNHD 329 (368)
Q Consensus 271 ~dDGY~WRKYGQK~ikgn~~pRsYYrCt~~gC~a~K~Ver~~~D~~~~~~TY~G~HnH~ 329 (368)
|||||+|||||||.|+|+++||+||||+..+|+|+|+|||+.+|+.+|+|||+|+|||+
T Consensus 1 ~~Dgy~WRKYGqK~i~g~~~pRsYYrCt~~~C~akK~Vqr~~~d~~~~~vtY~G~H~h~ 59 (60)
T PF03106_consen 1 LDDGYRWRKYGQKNIKGSPYPRSYYRCTHPGCPAKKQVQRSADDPNIVIVTYEGEHNHP 59 (60)
T ss_dssp --SSS-EEEEEEEEETTTTCEEEEEEEECTTEEEEEEEEEETTCCCEEEEEEES--SS-
T ss_pred CCCCCchhhccCcccCCCceeeEeeeccccChhheeeEEEecCCCCEEEEEEeeeeCCC
Confidence 68999999999999999999999999999999999999999999999999999999996
No 2
>smart00774 WRKY DNA binding domain. The WRKY domain is a DNA binding domain found in one or two copies in a superfamily of plant transcription factors. These transcription factors are involved in the regulation of various physiological programs that are unique to plants, including pathogen defense, senescence and trichome development. The domain is a 60 amino acid region that is defined by the conserved amino acid sequence WRKYGQK at its N-terminal end, together with a novel zinc-finger-like motif. It binds specifically to the DNA sequence motif (T)(T)TGAC(C/T), which is known as the W box. The invariant TGAC core is essential for function and WRKY binding.
Probab=99.96 E-value=7.4e-31 Score=200.97 Aligned_cols=58 Identities=64% Similarity=1.263 Sum_probs=56.6
Q ss_pred ccccchhhhcCCcccCCCCCCCccccccC-CCCCcccchhhhcCCCCEEEEEEeccCCC
Q 017677 271 LDDGYRWRKYGQKVVKGNPNPRSYYKCTT-TGCPVRKHVERASHDMRAVITTYEGKHNH 328 (368)
Q Consensus 271 ~dDGY~WRKYGQK~ikgn~~pRsYYrCt~-~gC~a~K~Ver~~~D~~~~~~TY~G~HnH 328 (368)
++|||+|||||||.|||+++||+||||+. +||+|+|+|||+++|+.+|+|||+|+|||
T Consensus 1 ~~DGy~WRKYGQK~ikgs~~pRsYYrCt~~~~C~a~K~Vq~~~~d~~~~~vtY~g~H~h 59 (59)
T smart00774 1 LDDGYQWRKYGQKVIKGSPFPRSYYRCTYSQGCPAKKQVQRSDDDPSVVEVTYEGEHTH 59 (59)
T ss_pred CCCcccccccCcEecCCCcCcceEEeccccCCCCCcccEEEECCCCCEEEEEEeeEeCC
Confidence 48999999999999999999999999998 89999999999999999999999999998
No 3
>PF03106 WRKY: WRKY DNA -binding domain; InterPro: IPR003657 The WRKY domain is a 60 amino acid region that is defined by the conserved amino acid sequence WRKYGQK at its N-terminal end, together with a novel zinc-finger- like motif. The WRKY domain is found in one or two copies in a superfamily of plant transcription factors involved in the regulation of various physiological programs that are unique to plants, including pathogen defence, senescence, trichome development and the biosynthesis of secondary metabolites. The WRKY domain binds specifically to the DNA sequence motif (T)(T)TGAC(C/T), which is known as the W box. The invariant TGAC core of the W box is essential for function and WRKY binding []. Some proteins known to contain a WRKY domain include Arabidopsis thaliana ZAP1 (Zinc-dependent Activator Protein-1) and AtWRKY44/TTG2, a protein involved in trichome development and anthocyanin pigmentation; and wild oat ABF1-2, two proteins involved in the gibberelic acid-induced expression of the alpha-Amy2 gene. Structural studies indicate that this domain is a four-stranded beta-sheet with a zinc binding pocket, forming a novel zinc and DNA binding structure []. The WRKYGQK residues correspond to the most N-terminal beta-strand, which enables extensive hydrophobic interactions, contributing to the structural stability of the beta-sheet.; GO: 0003700 sequence-specific DNA binding transcription factor activity, 0043565 sequence-specific DNA binding, 0006355 regulation of transcription, DNA-dependent; PDB: 2AYD_A 1WJ2_A 2LEX_A.
Probab=99.95 E-value=4.9e-30 Score=196.68 Aligned_cols=59 Identities=61% Similarity=1.217 Sum_probs=50.5
Q ss_pred CCCCccccccCcccCCCCCCCCCCCCCCCCCCccccchhccc-CCceeeeeecccCCCCC
Q 017677 102 SEDGYNWRKYGQKQVKGSENPRSYFKCTFPDCPMKKKVERSL-DGQITEIVYKGSHNHPK 160 (368)
Q Consensus 102 ~~DGy~WRKYGQK~ikgs~~pRsYYrCt~~~C~akK~Ver~~-dg~~~~i~Y~G~Hnh~~ 160 (368)
++|||+|||||||.|+|+++||+||||++.+|+|+|+|||+. |+.+++|+|+|+|||++
T Consensus 1 ~~Dgy~WRKYGqK~i~g~~~pRsYYrCt~~~C~akK~Vqr~~~d~~~~~vtY~G~H~h~k 60 (60)
T PF03106_consen 1 LDDGYRWRKYGQKNIKGSPYPRSYYRCTHPGCPAKKQVQRSADDPNIVIVTYEGEHNHPK 60 (60)
T ss_dssp --SSS-EEEEEEEEETTTTCEEEEEEEECTTEEEEEEEEEETTCCCEEEEEEES--SS--
T ss_pred CCCCCchhhccCcccCCCceeeEeeeccccChhheeeEEEecCCCCEEEEEEeeeeCCCC
Confidence 489999999999999999999999999999999999999987 77888999999999985
No 4
>smart00774 WRKY DNA binding domain. The WRKY domain is a DNA binding domain found in one or two copies in a superfamily of plant transcription factors. These transcription factors are involved in the regulation of various physiological programs that are unique to plants, including pathogen defense, senescence and trichome development. The domain is a 60 amino acid region that is defined by the conserved amino acid sequence WRKYGQK at its N-terminal end, together with a novel zinc-finger-like motif. It binds specifically to the DNA sequence motif (T)(T)TGAC(C/T), which is known as the W box. The invariant TGAC core is essential for function and WRKY binding.
Probab=99.95 E-value=7.9e-29 Score=189.80 Aligned_cols=57 Identities=56% Similarity=1.154 Sum_probs=54.7
Q ss_pred CCCCccccccCcccCCCCCCCCCCCCCCC-CCCccccchhccc-CCceeeeeecccCCC
Q 017677 102 SEDGYNWRKYGQKQVKGSENPRSYFKCTF-PDCPMKKKVERSL-DGQITEIVYKGSHNH 158 (368)
Q Consensus 102 ~~DGy~WRKYGQK~ikgs~~pRsYYrCt~-~~C~akK~Ver~~-dg~~~~i~Y~G~Hnh 158 (368)
.+|||.|||||||.|+|+++||+||||++ ++|+|+|+||++. |+.+++|+|+|+|||
T Consensus 1 ~~DGy~WRKYGQK~ikgs~~pRsYYrCt~~~~C~a~K~Vq~~~~d~~~~~vtY~g~H~h 59 (59)
T smart00774 1 LDDGYQWRKYGQKVIKGSPFPRSYYRCTYSQGCPAKKQVQRSDDDPSVVEVTYEGEHTH 59 (59)
T ss_pred CCCcccccccCcEecCCCcCcceEEeccccCCCCCcccEEEECCCCCEEEEEEeeEeCC
Confidence 48999999999999999999999999999 8999999999986 789999999999998
No 5
>PF04500 FLYWCH: FLYWCH zinc finger domain; InterPro: IPR007588 Zinc finger (Znf) domains are relatively small protein motifs which contain multiple finger-like protrusions that make tandem contacts with their target molecule. Some of these domains bind zinc, but many do not; instead binding other metals such as iron, or no metal at all. For example, some family members form salt bridges to stabilise the finger-like folds. They were first identified as a DNA-binding motif in transcription factor TFIIIA from Xenopus laevis (African clawed frog), however they are now recognised to bind DNA, RNA, protein and/or lipid substrates [, , , , ]. Their binding properties depend on the amino acid sequence of the finger domains and of the linker between fingers, as well as on the higher-order structures and the number of fingers. Znf domains are often found in clusters, where fingers can have different binding specificities. There are many superfamilies of Znf motifs, varying in both sequence and structure. They display considerable versatility in binding modes, even between members of the same class (e.g. some bind DNA, others protein), suggesting that Znf motifs are stable scaffolds that have evolved specialised functions. For example, Znf-containing proteins function in gene transcription, translation, mRNA trafficking, cytoskeleton organisation, epithelial development, cell adhesion, protein folding, chromatin remodelling and zinc sensing, to name but a few []. Zinc-binding motifs are stable structures, and they rarely undergo conformational changes upon binding their target. C2H2-type (classical) zinc fingers (Znf) were the first class to be characterised. They contain a short beta hairpin and an alpha helix (beta/beta/alpha structure), where a single zinc atom is held in place by Cys(2)His(2) (C2H2) residues in a tetrahedral array. C2H2 Znf's can be divided into three groups based on the number and pattern of fingers: triple-C2H2 (binds single ligand), multiple-adjacent-C2H2 (binds multiple ligands), and separated paired-C2H2 []. C2H2 Znf's are the most common DNA-binding motifs found in eukaryotic transcription factors, and have also been identified in prokaryotes []. Transcription factors usually contain several Znf's (each with a conserved beta/beta/alpha structure) capable of making multiple contacts along the DNA, where the C2H2 Znf motifs recognise DNA sequences by binding to the major groove of DNA via a short alpha-helix in the Znf, the Znf spanning 3-4 bases of the DNA []. C2H2 Znf's can also bind to RNA and protein targets []. This entry represents a potential FLYWCH Zn-finger domain found in a number of eukaryotic proteins. FLYWCH is a C2H2-type zinc finger characterised by five conserved hydrophobic residues, containing the conserved sequence motif: F/Y-X(n)-L-X(n)-F/Y-X(n)-WXCX(6-12)CX(17-22)HXH where X indicates any amino acid. This domain was first characterised in Drosophila Modifier of mdg4 proteins, Mod(mgd4), putative chromatin modulators involved in higher order chromatin domains. Mod(mdg4) proteins share a common N-terminal BTB/POZ domain, but differ in their C-terminal region, most containing C-terminal FLYWCH zinc finger motifs []. The FLYWCH domain in Mod(mdg4) proteins has a putative role in protein-protein interactions; for example, Mod(mdg4)-67.2 interacts with DNA-binding protein Su(Hw) via its FLYWCH domain. FLYWCH domains have been described in other proteins as well, including suppressor of killer of prune, Su(Kpn), which contains 4 terminal FLYWCH zinc finger motifs in a tandem array and a C-terminal glutathione SH-transferase (GST) domain []. More information about these proteins can be found at Protein of the Month: Zinc Fingers [].; PDB: 2RPR_A.
Probab=91.45 E-value=0.059 Score=39.33 Aligned_cols=49 Identities=31% Similarity=0.700 Sum_probs=24.9
Q ss_pred cccccchhhhcCCcccCCCCCCCccccccCC---CCCcccchhhhcCCCCEEEEEEeccCCC
Q 017677 270 ILDDGYRWRKYGQKVVKGNPNPRSYYKCTTT---GCPVRKHVERASHDMRAVITTYEGKHNH 328 (368)
Q Consensus 270 ~~dDGY~WRKYGQK~ikgn~~pRsYYrCt~~---gC~a~K~Ver~~~D~~~~~~TY~G~HnH 328 (368)
|+-|||+-++.... ....|++|+.. +|+|+=.+. .++. .+ +...++|||
T Consensus 11 L~~~Gy~y~~~~~~------~~~~~WrC~~~~~~~C~a~~~~~--~~~~-~~-~~~~~~HnH 62 (62)
T PF04500_consen 11 LVYDGYRYYFNKRN------DGKTYWRCSRRRSHGCRARLITD--AGDG-RV-VRTNGEHNH 62 (62)
T ss_dssp EEETTEEEEEEEE-------SS-EEEEEGGGTTS----EEEEE----TT-EE-EE-S---SS
T ss_pred EEECCeEEECcCCC------CCcEEEEeCCCCCCCCeEEEEEE--CCCC-EE-EECCCccCC
Confidence 44589988775554 45689999953 899987776 2333 33 445599999
No 6
>PF03101 FAR1: FAR1 DNA-binding domain; InterPro: IPR004330 Phytochrome A is the primary photoreceptor for mediating various far-red light-induced responses in higher plants. It has been found that the proteins governing this response, which include FAR-RED ELONGATED HYPOCOTYL3 (FHY3) and FAR-RED-IMPAIRED RESPONSE1 (FAR1), are a pair of homologous proteins sharing significant sequence homology to mutator-like transposases. These proteins appear to be novel transcription factors, which are essential for activating the expression of FHY1 and FHL (for FHY1-like) and related genes, whose products are required for light-induced phytochrome A nuclear accumulation and subsequent light responses in plants. The FRS (FAR1 Related Sequences) family of proteins share a similar domain structure to mutator-like transposases, including an N-terminal C2H2 zinc finger domain, a central putative core transposase domain, and a C-terminal SWIM motif (named after SWI2/SNF and MuDR transposases). It seems plausible that the FRS family represent transcription factors derived from mutator-like transposases [, ]. This entry represents a domain found in FAR1 and FRS proteins. It contains a WRKY like fold and is therefore most likely a zinc binding DNA-binding domain.
Probab=89.68 E-value=0.15 Score=40.48 Aligned_cols=31 Identities=35% Similarity=0.559 Sum_probs=26.6
Q ss_pred CCCCcccchhhhcCCCCEEEEEEeccCCCCCC
Q 017677 300 TGCPVRKHVERASHDMRAVITTYEGKHNHDVP 331 (368)
Q Consensus 300 ~gC~a~K~Ver~~~D~~~~~~TY~G~HnH~~p 331 (368)
.||+|+=.|-+.. |...+|+.+..+|||++-
T Consensus 60 tgC~a~i~v~~~~-~~~w~v~~~~~~HNH~L~ 90 (91)
T PF03101_consen 60 TGCKARINVKRRK-DGKWRVTSFVLEHNHPLC 90 (91)
T ss_pred cCCCEEEEEEEcc-CCEEEEEECcCCcCCCCC
Confidence 5999998887755 888899999999999864
No 7
>PF04500 FLYWCH: FLYWCH zinc finger domain; InterPro: IPR007588 Zinc finger (Znf) domains are relatively small protein motifs which contain multiple finger-like protrusions that make tandem contacts with their target molecule. Some of these domains bind zinc, but many do not; instead binding other metals such as iron, or no metal at all. For example, some family members form salt bridges to stabilise the finger-like folds. They were first identified as a DNA-binding motif in transcription factor TFIIIA from Xenopus laevis (African clawed frog), however they are now recognised to bind DNA, RNA, protein and/or lipid substrates [, , , , ]. Their binding properties depend on the amino acid sequence of the finger domains and of the linker between fingers, as well as on the higher-order structures and the number of fingers. Znf domains are often found in clusters, where fingers can have different binding specificities. There are many superfamilies of Znf motifs, varying in both sequence and structure. They display considerable versatility in binding modes, even between members of the same class (e.g. some bind DNA, others protein), suggesting that Znf motifs are stable scaffolds that have evolved specialised functions. For example, Znf-containing proteins function in gene transcription, translation, mRNA trafficking, cytoskeleton organisation, epithelial development, cell adhesion, protein folding, chromatin remodelling and zinc sensing, to name but a few []. Zinc-binding motifs are stable structures, and they rarely undergo conformational changes upon binding their target. C2H2-type (classical) zinc fingers (Znf) were the first class to be characterised. They contain a short beta hairpin and an alpha helix (beta/beta/alpha structure), where a single zinc atom is held in place by Cys(2)His(2) (C2H2) residues in a tetrahedral array. C2H2 Znf's can be divided into three groups based on the number and pattern of fingers: triple-C2H2 (binds single ligand), multiple-adjacent-C2H2 (binds multiple ligands), and separated paired-C2H2 []. C2H2 Znf's are the most common DNA-binding motifs found in eukaryotic transcription factors, and have also been identified in prokaryotes []. Transcription factors usually contain several Znf's (each with a conserved beta/beta/alpha structure) capable of making multiple contacts along the DNA, where the C2H2 Znf motifs recognise DNA sequences by binding to the major groove of DNA via a short alpha-helix in the Znf, the Znf spanning 3-4 bases of the DNA []. C2H2 Znf's can also bind to RNA and protein targets []. This entry represents a potential FLYWCH Zn-finger domain found in a number of eukaryotic proteins. FLYWCH is a C2H2-type zinc finger characterised by five conserved hydrophobic residues, containing the conserved sequence motif: F/Y-X(n)-L-X(n)-F/Y-X(n)-WXCX(6-12)CX(17-22)HXH where X indicates any amino acid. This domain was first characterised in Drosophila Modifier of mdg4 proteins, Mod(mgd4), putative chromatin modulators involved in higher order chromatin domains. Mod(mdg4) proteins share a common N-terminal BTB/POZ domain, but differ in their C-terminal region, most containing C-terminal FLYWCH zinc finger motifs []. The FLYWCH domain in Mod(mdg4) proteins has a putative role in protein-protein interactions; for example, Mod(mdg4)-67.2 interacts with DNA-binding protein Su(Hw) via its FLYWCH domain. FLYWCH domains have been described in other proteins as well, including suppressor of killer of prune, Su(Kpn), which contains 4 terminal FLYWCH zinc finger motifs in a tandem array and a C-terminal glutathione SH-transferase (GST) domain []. More information about these proteins can be found at Protein of the Month: Zinc Fingers [].; PDB: 2RPR_A.
Probab=86.85 E-value=0.12 Score=37.67 Aligned_cols=49 Identities=20% Similarity=0.476 Sum_probs=23.7
Q ss_pred cCCCCccccccCcccCCCCCCCCCCCCCCCC---CCccccchhcccCCceeeeeecccCCC
Q 017677 101 RSEDGYNWRKYGQKQVKGSENPRSYFKCTFP---DCPMKKKVERSLDGQITEIVYKGSHNH 158 (368)
Q Consensus 101 ~~~DGy~WRKYGQK~ikgs~~pRsYYrCt~~---~C~akK~Ver~~dg~~~~i~Y~G~Hnh 158 (368)
..-|||.-++.... ..+.|++|+.. +|+|+=.+. .++. ..+...++|||
T Consensus 11 L~~~Gy~y~~~~~~------~~~~~WrC~~~~~~~C~a~~~~~--~~~~-~~~~~~~~HnH 62 (62)
T PF04500_consen 11 LVYDGYRYYFNKRN------DGKTYWRCSRRRSHGCRARLITD--AGDG-RVVRTNGEHNH 62 (62)
T ss_dssp EEETTEEEEEEEE-------SS-EEEEEGGGTTS----EEEEE----TT-EEEE-S---SS
T ss_pred EEECCeEEECcCCC------CCcEEEEeCCCCCCCCeEEEEEE--CCCC-EEEECCCccCC
Confidence 45788886665444 34579999865 799976665 2222 23445599998
No 8
>PF03101 FAR1: FAR1 DNA-binding domain; InterPro: IPR004330 Phytochrome A is the primary photoreceptor for mediating various far-red light-induced responses in higher plants. It has been found that the proteins governing this response, which include FAR-RED ELONGATED HYPOCOTYL3 (FHY3) and FAR-RED-IMPAIRED RESPONSE1 (FAR1), are a pair of homologous proteins sharing significant sequence homology to mutator-like transposases. These proteins appear to be novel transcription factors, which are essential for activating the expression of FHY1 and FHL (for FHY1-like) and related genes, whose products are required for light-induced phytochrome A nuclear accumulation and subsequent light responses in plants. The FRS (FAR1 Related Sequences) family of proteins share a similar domain structure to mutator-like transposases, including an N-terminal C2H2 zinc finger domain, a central putative core transposase domain, and a C-terminal SWIM motif (named after SWI2/SNF and MuDR transposases). It seems plausible that the FRS family represent transcription factors derived from mutator-like transposases [, ]. This entry represents a domain found in FAR1 and FRS proteins. It contains a WRKY like fold and is therefore most likely a zinc binding DNA-binding domain.
Probab=68.90 E-value=3.2 Score=32.84 Aligned_cols=30 Identities=30% Similarity=0.519 Sum_probs=24.5
Q ss_pred CCCccccchhcccCCceeeeeecccCCCCC
Q 017677 131 PDCPMKKKVERSLDGQITEIVYKGSHNHPK 160 (368)
Q Consensus 131 ~~C~akK~Ver~~dg~~~~i~Y~G~Hnh~~ 160 (368)
-+|+|+=.|-+..+|....+.+..+|||+.
T Consensus 60 tgC~a~i~v~~~~~~~w~v~~~~~~HNH~L 89 (91)
T PF03101_consen 60 TGCKARINVKRRKDGKWRVTSFVLEHNHPL 89 (91)
T ss_pred cCCCEEEEEEEccCCEEEEEECcCCcCCCC
Confidence 489999888876677766677999999974
No 9
>PLN03097 FHY3 Protein FAR-RED ELONGATED HYPOCOTYL 3; Provisional
Probab=28.78 E-value=47 Score=37.90 Aligned_cols=36 Identities=36% Similarity=0.659 Sum_probs=30.3
Q ss_pred ccCCCCCcccchhhhcCCCCEEEEEEeccCCCCCCcc
Q 017677 297 CTTTGCPVRKHVERASHDMRAVITTYEGKHNHDVPAA 333 (368)
Q Consensus 297 Ct~~gC~a~K~Ver~~~D~~~~~~TY~G~HnH~~p~~ 333 (368)
|+-.||+|+=.|.+ ..|..-+++-++.+|||+.-++
T Consensus 156 ~tRtGC~A~m~Vk~-~~~gkW~V~~fv~eHNH~L~p~ 191 (846)
T PLN03097 156 CAKTDCKASMHVKR-RPDGKWVIHSFVKEHNHELLPA 191 (846)
T ss_pred ccCCCCceEEEEEE-cCCCeEEEEEEecCCCCCCCCc
Confidence 77789999988877 4567889999999999988654
No 10
>PLN03097 FHY3 Protein FAR-RED ELONGATED HYPOCOTYL 3; Provisional
Probab=28.43 E-value=40 Score=38.45 Aligned_cols=35 Identities=29% Similarity=0.463 Sum_probs=28.9
Q ss_pred CCCCCCccccchhcccCCceeeeeecccCCCCCCC
Q 017677 128 CTFPDCPMKKKVERSLDGQITEIVYKGSHNHPKPT 162 (368)
Q Consensus 128 Ct~~~C~akK~Ver~~dg~~~~i~Y~G~Hnh~~p~ 162 (368)
|+--||+|+=.|-+..+|....+-+..+|||+.-.
T Consensus 156 ~tRtGC~A~m~Vk~~~~gkW~V~~fv~eHNH~L~p 190 (846)
T PLN03097 156 CAKTDCKASMHVKRRPDGKWVIHSFVKEHNHELLP 190 (846)
T ss_pred ccCCCCceEEEEEEcCCCeEEEEEEecCCCCCCCC
Confidence 77789999999988778876666799999998643
No 11
>PF03859 CG-1: CG-1 domain; InterPro: IPR005559 CG-1 domains are highly conserved domains of about 130 amino-acid residues containing a predicted bipartite NLS and named after a partial cDNA clone isolated from parsley encoding a sequence-specific DNA-binding protein []. CG-1 domains are associated with CAMTA proteins (for CAlModulin -binding Transcription Activator) that are transcription factors containing a calmodulin-binding domain and ankyrins [].; GO: 0005516 calmodulin binding, 0006355 regulation of transcription, DNA-dependent, 0005634 nucleus
Probab=26.34 E-value=24 Score=31.23 Aligned_cols=9 Identities=67% Similarity=1.331 Sum_probs=7.6
Q ss_pred CCCCccccc
Q 017677 102 SEDGYNWRK 110 (368)
Q Consensus 102 ~~DGy~WRK 110 (368)
-.|||.|||
T Consensus 51 RkDG~~WrK 59 (118)
T PF03859_consen 51 RKDGHNWRK 59 (118)
T ss_pred hcccceeEE
Confidence 369999996
Done!