BP090508 ( MX225a02_r )

[UP] 

BLASTX 2.2.22 [Sep-27-2009]

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.

Query= BP090508  MX225a02_r
         (284 letters)

Database: uniref100 
           9,526,577 sequences; 3,332,566,763 total letters

Searching..................................................done

significant alignments:[graphical|details]

UniRef100_Q1WLW7 G strand binding-protein 1/telomere binding-pro...   106   3e-34
UniRef100_Q39568 G-strand telomere binding protein 1 n=1 Tax=Chl...   106   3e-34
UniRef100_B8CBN8 Predicted protein (Fragment) n=1 Tax=Thalassios...    49   2e-10
UniRef100_B6KC28 Gbp1p protein, putative n=3 Tax=Toxoplasma gond...    58   4e-09
UniRef100_Q6C5Y5 YALI0E14058p n=1 Tax=Yarrowia lipolytica RepID=...    49   8e-09
UniRef100_A7RSW7 Predicted protein n=1 Tax=Nematostella vectensi...    49   1e-08
UniRef100_Q5CIP3 Single-stranded G-strand telomeric DNA-binding ...    47   7e-08
UniRef100_UPI00006A0F77 Heterogeneous nuclear ribonucleoprotein ...    42   8e-08
UniRef100_UPI000184A421 Heterogeneous nuclear ribonucleoprotein ...    42   8e-08
UniRef100_UPI00006A0F78 Heterogeneous nuclear ribonucleoprotein ...    42   9e-08
UniRef100_UPI00004D80B3 Heterogeneous nuclear ribonucleoprotein ...    42   9e-08
UniRef100_UPI00006A0F79 Heterogeneous nuclear ribonucleoprotein ...    42   9e-08
UniRef100_Q7XZ56 Gbp1 n=1 Tax=Griffithsia japonica RepID=Q7XZ56_...    49   9e-08
UniRef100_A4IFX5 LOC100049142 protein (Fragment) n=1 Tax=Xenopus...    41   1e-07
UniRef100_B7GER2 Predicted protein n=1 Tax=Phaeodactylum tricorn...    45   1e-07
UniRef100_B6AJC6 RNA recognition domain-containing protein n=1 T...    46   1e-07
UniRef100_C1MII7 RNA binding protein n=1 Tax=Micromonas pusilla ...    47   2e-07
UniRef100_A4S2D6 Predicted protein n=1 Tax=Ostreococcus lucimari...    45   3e-07
UniRef100_UPI00019268A8 PREDICTED: similar to predicted protein ...    49   5e-07
UniRef100_C1E859 Cold-shock protein with RNA binding domain n=1 ...    39   5e-07
UniRef100_A4S763 Predicted protein n=1 Tax=Ostreococcus lucimari...    43   5e-07
UniRef100_Q4UAM6 Putative uncharacterized protein n=1 Tax=Theile...    47   9e-07
UniRef100_A1DNV5 RNP domain protein n=1 Tax=Neosartorya fischeri...    39   1e-06
UniRef100_C1E9P0 RNA binding domain-containing protein n=1 Tax=M...    48   1e-06
UniRef100_Q4N3C8 Putative uncharacterized protein n=1 Tax=Theile...    49   2e-06
UniRef100_A8J6M7 Predicted protein n=1 Tax=Chlamydomonas reinhar...    40   2e-06
UniRef100_C5KY24 Splice factor, putative n=1 Tax=Perkinsus marin...    49   3e-06
UniRef100_C5KUT9 Splice factor, putative n=1 Tax=Perkinsus marin...    49   3e-06
UniRef100_Q8IJX3 RNA binding protein, putative n=1 Tax=Plasmodiu...    41   3e-06
UniRef100_Q4YY72 Putative uncharacterized protein (Fragment) n=1...    40   3e-06
UniRef100_Q7RJA9 Gbp1p protein-related n=1 Tax=Plasmodium yoelii...    40   4e-06
UniRef100_C1EIP8 Predicted protein n=1 Tax=Micromonas sp. RCC299...    39   6e-06
UniRef100_UPI000151AF3E hypothetical protein PGUG_04281 n=1 Tax=...    44   6e-06
UniRef100_A5DLY0 Putative uncharacterized protein n=1 Tax=Pichia...    44   6e-06
UniRef100_UPI0000F2CA07 PREDICTED: similar to Heterogeneous nucl...    39   9e-06
UniRef100_UPI0000EBCBC9 PREDICTED: heterogeneous nuclear ribonuc...    39   9e-06
UniRef100_UPI00004BD93F PREDICTED: similar to heterogeneous nucl...    39   9e-06
UniRef100_P52272 Heterogeneous nuclear ribonucleoprotein M n=4 T...    39   9e-06
UniRef100_UPI0000503D39 heterogeneous nuclear ribonucleoprotein ...    39   9e-06
UniRef100_Q9D0E1 Heterogeneous nuclear ribonucleoprotein M n=2 T...    39   9e-06
UniRef100_UPI0000F2CA08 PREDICTED: similar to Heterogeneous nucl...    39   9e-06
UniRef100_UPI0000E24F32 PREDICTED: heterogeneous nuclear ribonuc...    39   9e-06
UniRef100_UPI00005A3D6A PREDICTED: similar to heterogeneous nucl...    39   9e-06
UniRef100_UPI0000E24F33 PREDICTED: heterogeneous nuclear ribonuc...    39   9e-06
UniRef100_UPI00005A3D6B PREDICTED: similar to heterogeneous nucl...    39   9e-06
UniRef100_UPI0000E24F39 PREDICTED: heterogeneous nuclear ribonuc...    39   9e-06
UniRef100_UPI00005A3D61 PREDICTED: similar to heterogeneous nucl...    39   9e-06
UniRef100_Q5ZL80 Putative uncharacterized protein n=1 Tax=Gallus...    39   9e-06
UniRef100_UPI000179EA4D HNRPM protein n=1 Tax=Bos taurus RepID=U...    39   9e-06
UniRef100_Q570Z0 MKIAA4193 protein (Fragment) n=3 Tax=Mus muscul...    39   9e-06
UniRef100_UPI0000F2CA06 PREDICTED: similar to Heterogeneous nucl...    39   9e-06
UniRef100_UPI0000E24F34 PREDICTED: heterogeneous nuclear ribonuc...    39   9e-06
UniRef100_UPI00005A3D64 PREDICTED: similar to heterogeneous nucl...    39   9e-06
UniRef100_P52272-2 Isoform 2 of Heterogeneous nuclear ribonucleo...    39   9e-06
UniRef100_UPI0000DBF7D1 heterogeneous nuclear ribonucleoprotein ...    39   9e-06
UniRef100_Q3TW40 Putative uncharacterized protein n=1 Tax=Mus mu...    39   9e-06
UniRef100_Q62826 Heterogeneous nuclear ribonucleoprotein M n=2 T...    39   9e-06
UniRef100_UPI0000E24F30 PREDICTED: heterogeneous nuclear ribonuc...    39   9e-06
UniRef100_UPI00005A3D69 PREDICTED: similar to heterogeneous nucl...    39   9e-06
UniRef100_UPI0000E24F31 PREDICTED: heterogeneous nuclear ribonuc...    39   9e-06
UniRef100_UPI0000E24F35 PREDICTED: heterogeneous nuclear ribonuc...    39   9e-06
UniRef100_UPI00005A3D68 PREDICTED: similar to heterogeneous nucl...    39   9e-06
UniRef100_UPI0000E24F37 PREDICTED: heterogeneous nuclear ribonuc...    39   9e-06
UniRef100_UPI0000E24F3A PREDICTED: heterogeneous nuclear ribonuc...    39   9e-06
UniRef100_Q59ES8 Heterogeneous nuclear ribonucleoprotein M isofo...    39   9e-06
UniRef100_UPI0001796598 PREDICTED: similar to heterogeneous nucl...    39   9e-06
UniRef100_UPI00005A3D65 PREDICTED: similar to heterogeneous nucl...    39   9e-06
UniRef100_UPI00005A3D67 PREDICTED: similar to Heterogeneous nucl...    39   9e-06
UniRef100_UPI00005A3D63 PREDICTED: similar to heterogeneous nucl...    39   9e-06
UniRef100_UPI0000E24F3B PREDICTED: heterogeneous nuclear ribonuc...    39   9e-06
UniRef100_UPI00005A3D66 PREDICTED: similar to heterogeneous nucl...    39   9e-06
UniRef100_UPI0000EC9F28 heterogeneous nuclear ribonucleoprotein ...    39   9e-06
UniRef100_UPI0000F329F2 HNRPM protein n=1 Tax=Bos taurus RepID=U...    39   9e-06
UniRef100_Q3SYX2 HNRPM protein n=1 Tax=Bos taurus RepID=Q3SYX2_B...    39   9e-06
UniRef100_UPI000013C68B PREDICTED: heterogeneous nuclear ribonuc...    39   9e-06
UniRef100_UPI00015564E7 PREDICTED: similar to heterogeneous nucl...    39   9e-06
UniRef100_UPI0000E24F3F PREDICTED: similar to ORF isoform 3 n=1 ...    39   9e-06
UniRef100_Q3TQ66 Putative uncharacterized protein (Fragment) n=1...    39   9e-06
UniRef100_Q6P2D7 HNRPM protein (Fragment) n=1 Tax=Homo sapiens R...    39   9e-06
UniRef100_A5K789 RNA binding protein, putative n=1 Tax=Plasmodiu...    40   9e-06
graphical overview:
alignment
UniRef100_Q1WLW7 UniRef100_Q1WLW7 UniRef100_Q1WLW7 UniRef100_Q1WLW7 UniRef100_Q39568 UniRef100_Q39568 UniRef100_Q39568 UniRef100_Q39568 UniRef100_B8CBN8 UniRef100_B8CBN8 UniRef100_B8CBN8 UniRef100_B8CBN8 UniRef100_B8CBN8 UniRef100_B8CBN8 UniRef100_B8CBN8 UniRef100_B8CBN8 UniRef100_B6KC28 UniRef100_B6KC28 UniRef100_B6KC28 UniRef100_B6KC28 UniRef100_Q6C5Y5 UniRef100_Q6C5Y5 UniRef100_Q6C5Y5 UniRef100_Q6C5Y5 UniRef100_Q6C5Y5 UniRef100_Q6C5Y5 UniRef100_Q6C5Y5 UniRef100_Q6C5Y5 UniRef100_A7RSW7 UniRef100_A7RSW7 UniRef100_A7RSW7 UniRef100_A7RSW7 UniRef100_A7RSW7 UniRef100_A7RSW7 UniRef100_A7RSW7 UniRef100_A7RSW7 UniRef100_Q5CIP3 UniRef100_Q5CIP3 UniRef100_Q5CIP3 UniRef100_Q5CIP3 UniRef100_UPI00006A0F77 UniRef100_UPI00006A0F77 UniRef100_UPI00006A0F77 UniRef100_UPI00006A0F77 UniRef100_UPI000184A421 UniRef100_UPI000184A421 UniRef100_UPI000184A421 UniRef100_UPI000184A421 UniRef100_UPI00006A0F78 UniRef100_UPI00006A0F78 UniRef100_UPI00006A0F78 UniRef100_UPI00006A0F78 UniRef100_UPI00004D80B3 UniRef100_UPI00004D80B3 UniRef100_UPI00004D80B3 UniRef100_UPI00004D80B3 UniRef100_UPI00006A0F79 UniRef100_UPI00006A0F79 UniRef100_UPI00006A0F79 UniRef100_UPI00006A0F79 UniRef100_Q7XZ56 UniRef100_Q7XZ56 UniRef100_Q7XZ56 UniRef100_Q7XZ56 UniRef100_A4IFX5 UniRef100_A4IFX5 UniRef100_A4IFX5 UniRef100_A4IFX5 UniRef100_B7GER2 UniRef100_B7GER2 UniRef100_B7GER2 UniRef100_B7GER2 UniRef100_B6AJC6 UniRef100_B6AJC6 UniRef100_B6AJC6 UniRef100_B6AJC6 UniRef100_C1MII7 UniRef100_C1MII7 UniRef100_C1MII7 UniRef100_C1MII7 UniRef100_A4S2D6 UniRef100_A4S2D6 UniRef100_A4S2D6 UniRef100_A4S2D6 UniRef100_UPI00019268A8 UniRef100_UPI00019268A8 UniRef100_UPI00019268A8 UniRef100_UPI00019268A8 UniRef100_UPI00019268A8 UniRef100_UPI00019268A8 UniRef100_UPI00019268A8 UniRef100_UPI00019268A8 UniRef100_C1E859 UniRef100_C1E859 UniRef100_C1E859 UniRef100_C1E859 UniRef100_A4S763 UniRef100_A4S763 UniRef100_A4S763 UniRef100_A4S763 UniRef100_Q4UAM6 UniRef100_Q4UAM6 UniRef100_Q4UAM6 UniRef100_Q4UAM6 UniRef100_A1DNV5 UniRef100_A1DNV5 UniRef100_A1DNV5 UniRef100_A1DNV5 UniRef100_C1E9P0 UniRef100_C1E9P0 UniRef100_C1E9P0 UniRef100_C1E9P0 UniRef100_Q4N3C8 UniRef100_Q4N3C8 UniRef100_Q4N3C8 UniRef100_Q4N3C8 UniRef100_A8J6M7 UniRef100_A8J6M7 UniRef100_A8J6M7 UniRef100_A8J6M7 UniRef100_C5KY24 UniRef100_C5KY24 UniRef100_C5KY24 UniRef100_C5KY24 UniRef100_C5KUT9 UniRef100_C5KUT9 UniRef100_C5KUT9 UniRef100_C5KUT9 UniRef100_Q8IJX3 UniRef100_Q8IJX3 UniRef100_Q8IJX3 UniRef100_Q8IJX3 UniRef100_Q4YY72 UniRef100_Q4YY72 UniRef100_Q4YY72 UniRef100_Q4YY72 UniRef100_Q7RJA9 UniRef100_Q7RJA9 UniRef100_Q7RJA9 UniRef100_Q7RJA9 UniRef100_C1EIP8 UniRef100_C1EIP8 UniRef100_C1EIP8 UniRef100_C1EIP8 UniRef100_UPI000151AF3E UniRef100_UPI000151AF3E UniRef100_UPI000151AF3E UniRef100_UPI000151AF3E UniRef100_A5DLY0 UniRef100_A5DLY0 UniRef100_A5DLY0 UniRef100_A5DLY0 UniRef100_UPI0000F2CA07 UniRef100_UPI0000F2CA07 UniRef100_UPI0000F2CA07 UniRef100_UPI0000F2CA07 UniRef100_UPI0000EBCBC9 UniRef100_UPI0000EBCBC9 UniRef100_UPI0000EBCBC9 UniRef100_UPI0000EBCBC9 UniRef100_UPI00004BD93F UniRef100_UPI00004BD93F UniRef100_UPI00004BD93F UniRef100_UPI00004BD93F UniRef100_P52272 UniRef100_P52272 UniRef100_P52272 UniRef100_P52272 UniRef100_UPI0000503D39 UniRef100_UPI0000503D39 UniRef100_UPI0000503D39 UniRef100_UPI0000503D39 UniRef100_Q9D0E1 UniRef100_Q9D0E1 UniRef100_Q9D0E1 UniRef100_Q9D0E1 UniRef100_UPI0000F2CA08 UniRef100_UPI0000F2CA08 UniRef100_UPI0000F2CA08 UniRef100_UPI0000F2CA08 UniRef100_UPI0000E24F32 UniRef100_UPI0000E24F32 UniRef100_UPI0000E24F32 UniRef100_UPI0000E24F32 UniRef100_UPI00005A3D6A UniRef100_UPI00005A3D6A UniRef100_UPI00005A3D6A UniRef100_UPI00005A3D6A UniRef100_UPI0000E24F33 UniRef100_UPI0000E24F33 UniRef100_UPI0000E24F33 UniRef100_UPI0000E24F33 UniRef100_UPI00005A3D6B UniRef100_UPI00005A3D6B UniRef100_UPI00005A3D6B UniRef100_UPI00005A3D6B UniRef100_UPI0000E24F39 UniRef100_UPI0000E24F39 UniRef100_UPI0000E24F39 UniRef100_UPI0000E24F39 UniRef100_UPI00005A3D61 UniRef100_UPI00005A3D61 UniRef100_UPI00005A3D61 UniRef100_UPI00005A3D61 UniRef100_Q5ZL80 UniRef100_Q5ZL80 UniRef100_Q5ZL80 UniRef100_Q5ZL80 UniRef100_UPI000179EA4D UniRef100_UPI000179EA4D UniRef100_UPI000179EA4D UniRef100_UPI000179EA4D UniRef100_Q570Z0 UniRef100_Q570Z0 UniRef100_Q570Z0 UniRef100_Q570Z0 UniRef100_UPI0000F2CA06 UniRef100_UPI0000F2CA06 UniRef100_UPI0000F2CA06 UniRef100_UPI0000F2CA06 UniRef100_UPI0000E24F34 UniRef100_UPI0000E24F34 UniRef100_UPI0000E24F34 UniRef100_UPI0000E24F34 UniRef100_UPI00005A3D64 UniRef100_UPI00005A3D64 UniRef100_UPI00005A3D64 UniRef100_UPI00005A3D64 UniRef100_P52272-2 UniRef100_P52272-2 UniRef100_P52272-2 UniRef100_P52272-2 UniRef100_UPI0000DBF7D1 UniRef100_UPI0000DBF7D1 UniRef100_UPI0000DBF7D1 UniRef100_UPI0000DBF7D1 UniRef100_Q3TW40 UniRef100_Q3TW40 UniRef100_Q3TW40 UniRef100_Q3TW40 UniRef100_Q62826 UniRef100_Q62826 UniRef100_Q62826 UniRef100_Q62826 UniRef100_UPI0000E24F30 UniRef100_UPI0000E24F30 UniRef100_UPI0000E24F30 UniRef100_UPI0000E24F30 UniRef100_UPI00005A3D69 UniRef100_UPI00005A3D69 UniRef100_UPI00005A3D69 UniRef100_UPI00005A3D69 UniRef100_UPI0000E24F31 UniRef100_UPI0000E24F31 UniRef100_UPI0000E24F31 UniRef100_UPI0000E24F31 UniRef100_UPI0000E24F35 UniRef100_UPI0000E24F35 UniRef100_UPI0000E24F35 UniRef100_UPI0000E24F35 UniRef100_UPI00005A3D68 UniRef100_UPI00005A3D68 UniRef100_UPI00005A3D68 UniRef100_UPI00005A3D68 UniRef100_UPI0000E24F37 UniRef100_UPI0000E24F37 UniRef100_UPI0000E24F37 UniRef100_UPI0000E24F37 UniRef100_UPI0000E24F3A UniRef100_UPI0000E24F3A UniRef100_UPI0000E24F3A UniRef100_UPI0000E24F3A UniRef100_Q59ES8 UniRef100_Q59ES8 UniRef100_Q59ES8 UniRef100_Q59ES8 UniRef100_UPI0001796598 UniRef100_UPI0001796598 UniRef100_UPI0001796598 UniRef100_UPI0001796598 UniRef100_UPI00005A3D65 UniRef100_UPI00005A3D65 UniRef100_UPI00005A3D65 UniRef100_UPI00005A3D65 UniRef100_UPI00005A3D67 UniRef100_UPI00005A3D67 UniRef100_UPI00005A3D67 UniRef100_UPI00005A3D67 UniRef100_UPI00005A3D63 UniRef100_UPI00005A3D63 UniRef100_UPI00005A3D63 UniRef100_UPI00005A3D63 UniRef100_UPI0000E24F3B UniRef100_UPI0000E24F3B UniRef100_UPI0000E24F3B UniRef100_UPI0000E24F3B UniRef100_UPI00005A3D66 UniRef100_UPI00005A3D66 UniRef100_UPI00005A3D66 UniRef100_UPI00005A3D66 UniRef100_UPI0000EC9F28 UniRef100_UPI0000EC9F28 UniRef100_UPI0000EC9F28 UniRef100_UPI0000EC9F28 UniRef100_UPI0000F329F2 UniRef100_UPI0000F329F2 UniRef100_UPI0000F329F2 UniRef100_UPI0000F329F2 UniRef100_Q3SYX2 UniRef100_Q3SYX2 UniRef100_Q3SYX2 UniRef100_Q3SYX2 UniRef100_UPI000013C68B UniRef100_UPI000013C68B UniRef100_UPI000013C68B UniRef100_UPI000013C68B UniRef100_UPI00015564E7 UniRef100_UPI00015564E7 UniRef100_UPI00015564E7 UniRef100_UPI00015564E7 UniRef100_UPI0000E24F3F UniRef100_UPI0000E24F3F UniRef100_UPI0000E24F3F UniRef100_UPI0000E24F3F UniRef100_Q3TQ66 UniRef100_Q3TQ66 UniRef100_Q3TQ66 UniRef100_Q3TQ66 UniRef100_Q6P2D7 UniRef100_Q6P2D7 UniRef100_Q6P2D7 UniRef100_Q6P2D7