TIGR4

serotype 4

D39

serotype 2

D39V

serotype 2

Hungary19A-6

serotype 19A

EF3030

serotype 19F

670-6B

serotype 6B

6A-10

serotype 6A

70585

serotype 5

A026

serotype 19F

A66

serotype 3

AP200

serotype 11A

ASP0581

serotype 12F

ATCC 49619

serotype 19F

ATCC 700669

serotype 23F

BM6001

serotype 19F

BVJ1JL

serotype 1

CGSP14

serotype 14

G54

serotype 19F

HU-OH

serotype 3

Hu15

serotype 19A

Hu17

serotype 19A

INV104

serotype 1

INV200

serotype 14

JJA

serotype 14

MDRSPN001

serotype 19F

NCTC7465

serotype 1

NCTC7466

serotype 2

NU83127

serotype 4

OXC141

serotype 3

P1031

serotype 1

R6

serotype 2

SP49

serotype 19A

SPN032672

serotype 1

SPN034156

serotype 3

SPN034183

serotype 3

SPN994038

serotype 3

SPN994039

serotype 3

SPNA45

serotype 3

ST556

serotype 19F

TCH8431/19A

serotype 19A

Taiwan19F-14

serotype 19F

Xen35

serotype 4

gamPNI0373

serotype 1

NCBI: 30-JAN-2014

⊟Summary[edit | edit source]

organism: Streptococcus pneumoniae CGSP14
locus tag: SPCG_1750
pan locus tag^?:
symbol: SPCG_1750
pan gene symbol^?: —
synonym:
product: cell wall surface anchor family protein

⊟Genome View[edit | edit source]

⊟Gene[edit | edit source]

⊟General[edit | edit source]

type: CDS
locus tag: SPCG_1750
symbol: SPCG_1750
product: cell wall surface anchor family protein
replicon: chromosome
strand: -
coordinates: 1724222..1738309
length: 14088
essential: unknown

⊟Accession numbers[edit | edit source]

Location: CP001033 (1724222..1738309) NCBI
BioCyc:
MicrobesOnline: 5761085 MicrobesOnline
PneumoBrowse for strain D39V:

⊟Phenotype[edit | edit source]

Share your knowledge and add information here. [edit]

⊟DNA sequence[edit | edit source]

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
6901
6961
7021
7081
7141
7201
7261
7321
7381
7441
7501
7561
7621
7681
7741
7801
7861
7921
7981
8041
8101
8161
8221
8281
8341
8401
8461
8521
8581
8641
8701
8761
8821
8881
8941
9001
9061
9121
9181
9241
9301
9361
9421
9481
9541
9601
9661
9721
9781
9841
9901
9961
10021
10081
10141
10201
10261
10321
10381
10441
10501
10561
10621
10681
10741
10801
10861
10921
10981
11041
11101
11161
11221
11281
11341
11401
11461
11521
11581
11641
11701
11761
11821
11881
11941
12001
12061
12121
12181
12241
12301
12361
12421
12481
12541
12601
12661
12721
12781
12841
12901
12961
13021
13081
13141
13201
13261
13321
13381
13441
13501
13561
13621
13681
13741
13801
13861
13921
13981
14041
TTGTTTAAGGTCTTGCGAGGTGGTGTTGATACTACTCAGGTCATGACCGAAACGGTAGAA
GATAAAGTAAGTCATTCAATTACTGGGCTTGATATCCTCAAGGGGATAGTTGCTGCGGGA
ACTGTCATAAGTGGAACCGTTGCAACTCAAACGAAGGTATTTACAAATGAGTCGGCAGTA
CTTGAAAAAACTGTAGAGAAAACGGATGCTTTGGCAACAAATGGTACAGTAGTTCTAGGT
ACGATATCTACAAGTAATTCAGCGAGTTCAACTAGTTTGTCAGCTTCAGAGTCGGCAAGT
ACATCTGCATCTGAGTCAGCCTCAACCAGCGCTTCGACCTCAGCGAGTACAAGTGCATCA
GAATCAGCAAGTACATCGGCTTCGACAAGTATCTCTGCATCATCTACTGTGGTAGGTTCA
CAAACAGCTGCCGCTACAGAAGCAACTGCTAAGAAGGTCGAAGAAGATCGTAAGAAACCA
GCTAGTGATTATGTAGCATCAGTTACAAATGTCAATCTCCAATCTTATGCTAAGCGACGC
AAGCGTTCAGTGGATTCCATCGAGCAATTGCTGGCTTCTATAAATGCTGCTGTTTTTTCT
GGCAATATGATTGTAAATGGCGCTCCTGCAATTAATGCAAGTCTAAACATTGCTAAAAGT
GAGACAAAAGTTTACACGGGTACAGGTAAAGATTCATTTTATAATATTCCAATTTACTAT
CAATTGACAGTGACAAATGATGGTTCAAAATTGACCTTTACCTATACGGTTACGTATGTG
AATCCTACAACAAAGATTCTTGGTAATCTTTCAAATATGCGTCCTGGGTATTCTATCTAT
AATACAGGTACTTCAACACAAACAATGTTAACCCTTGGCAGTGGTCTTGGTATCCCTTCA
GGTGTAAAGAACTCCATTACTGACAAAAATGGTAGACAGGTTCGATACTATAATACATCT
ACAATGACGAAGCGGGGTAGTGGGTATACTTGGGCAAATGGTGCCCAAATGAATGGTCTG
CAGGCTAGGAGAGAATATGGATTAACATCATCTTGGACTGTACCAATTACTGGAACGGAT
ACATCCTTTACATTTACCCCTTACGCTGCTAAAACAGATAAAATTAGAACTAACTACTTC
AATGGTGGAGGAAAGGTAGTTGAATCTAGCACGACCAGTCAGTCACTTTCACAGTCTAAG
TCACTCTCAGTAAGTGCTAGTCAAAGCGCCTCAGCCTCAGCAAGTACAAGTGCTTCAGCT
TCAGCAAGTACCTCAGCTTCTGAATCGGCATCAACCAGTGCGTCGGCTTCAGCGTCAACC
AGTGCGTCTGAATCCGCATCAACGAGTGCTTCAGCTTCAGCATCAACGAGTGCGTCGGCT
TCAGCATCAACGAGTGCGTCGGCTTCAGCATCAACCAGTGCCTCAGCTTCAGCGTCAACC
AGTGCGTCAGCTTCAGCAAGTACCAGTGCGTCGGCTTCAGCAAGCACCAGCGCCTCGGCT
TCAGCATCAACGAGTGCATCAGTCTCAGCAAGCACCAGTGCGTCGGCCTCAGCAAGCACC
AGCGCGTCTGAATCCGCATCAACCAGTGCCTCAGCTTCAGCAAGTACCTCAGCATCTGAA
TCAGCATCAACAAGTGCATCAGCTTCAGCAAGCACCAGTGCGTCGGCTTCCGCATCAACA
AGTGCTTCAGCCTCAGCATCGACAAGTGCCTCGGCTTCAGCAAGCACATCAGCATCTGAA
TCAGCGTCAACCAGTGCTTCGGCTTCAGCAAGTACCAGTGCATCAGCTTCAGCGTCAACC
AGTGCATCAGCTTCAGCGTCAACCAGTGCATCAGCTTCAGCGTCAACCAGTGCATCAGCC
TCAGCATCGACAAGCGCTTCAGCTTCAGCGTCAACCAGTGCGTCAGCTTCAGCAAGTACC
TCAGCGTCTGAATCGGCCTCAACCAGTGCATCTGAATCGGCATCAACCAGTGCCTCAGCC
TCAGCAAGTACTAGCGCCTCAGCCTCAACCAGTGCTTCAGTCTCAGCGTCAACCAGTGCC
TCTGAATCCGCATCAACAAGTGCATCGGCTTCAGCAAGCACCAGTGCGTCGGCTTCAGCG
TCAACCAGTGCATCAGCTTCAGCATCAACGAGTGCATCGGCTTCAGCGTCAACCAGTGCA
TCAGTCTCAGCAAGCACCAGTGCGTCGGCTTCAGCAAGTACTAGCGCCTCAGCCTCAACC
AGTGCCTCAGCCTCAGCAAGTACTAGTGCATCAGCTTCAGCATCAACGAGTGCATCGGCT
TCAGCGTCAACCAGTGCATCAGAGTCAGCAAGTACCAGTGCGTCAGCTTCCGCATCAACA
AGTGCATCGGCTTCAGCGTCAACCAGTGCGTCGGCTTCAGCAAGTACTAGCGCCTCAGCC
TCAGCCTCAACCAGTGCATCGGCTTCAGCGTCAACCAGTGCATCAGCTTCAGCATCAACG
AGTGCATCGGCTTCAGCGTCAACCAGTGCATCAGTCTCAGCAAGCACCAGTGCGTCGGCT
TCAGCAAGTACTAGCGCCTCAGCCTCAGCCTCAACCAGTGCATCAGCCTCAGCAAGTACT
AGTGCATCAGCTTCAGCATCAACGAGTGCATCGGCTTCAGCGTCAACCAGTGCATCAGAG
TCAGCAAGTACCAGTGCGTCAGCTTCCGCATCAACAAGTGCCTCGGCTTCAGCAAGCACC
AGTGCGTCGGCTTCAGCAAGTACTAGCGCCTCAGCCTCAGCCTCAACCAGTGCCTCAGCC
TCAGCAAGTATCTCAGCGTCTGAATCGGCATCAACGAGTGCGTCGGCTTCAGCAAGTACT
AGCGCCTCAGCATCAGCGTCAACCAGTGCGTCAGCTTCCGCATCAACAAGTGCCTCGGCT
TCAGCAAGCACCAGTGCGTCGGCTTCAGCAAGTACTAGCGCCTCAGCCTCAGCCTCAACC
AGTGCCTCAGCCTCAGCAAGTACTAGTGCATCAGCTTCAGCATCAACGAGTGCATCAGCC
TCAGCAAGTATCTCAGCGTCTGAATCGGCATCAACGAGTGCGTCAGCCTCAGCAAGTACA
TCAGCGTCTGAATCTGCATCGACAAGCGCCTCAGCTTCAGCAAGCACCAGTGCTTCAGTC
TCAGCGTCAACCAGTGCCTCTGAATCCGCATCAACGAGTGCGTCCGCTTCAGCAAGCACA
AGTGCCTCAGCCTCAGCAAGTACCAGTGCATCAGAGTCAGCAAGTACCTCAGCGTCTGAA
TCGGCCTCAACCAGTGCTTCAGCCTCAGCATCGACAAGCGCTTCAGCTTCAGCAAGCACC
AGTGCGTCGGCTTCAGCATCAACAAGTGCTTCAGCCTCAGCAAGTACCAGTGCATCAGAG
TCAGCAAGTACCAGTGCGTCAGCTTCAGCGTCAACCAGCGCCTCAGCCTCAGCAAGTACC
AGTGCGTCAGCTTCAGCGTCAACAAGTGCGTCAGCTTCAGCAAGCACCAGTGCGTCGGCT
TCAGCAAGTACCAGTGCTTCGGCTTCAGCAAGCACCAGCGCCTCAGCTTCAGCATCAACA
AGTGCGTCAGCTTCAGCAAGCACCAGCGCCTCGGTCTCAGCGTCAACAAGTGCTTCAGCC
TCAGCAAGCACCTCAGCGTCTGAATCCGCATCAACGAGTGCTTCAGCTTCAGCATCAACG
AGTGCGTCGGCTTCAGCATCAACGAGTGCGTCGGCTTCAGCATCAACCAGTGCCTCAGCT
TCAGCGTCAACCAGTGCGTCAGCTTCAGCAAGTACCAGTGCGTCGGCTTCAGCAAGCACC
AGCGCCTCGGCTTCAGCATCAACGAGTGCATCAGTCTCAGCAAGCACCAGTGCGTCGGCC
TCAGCAAGCACCAGCGCGTCTGAATCCGCATCAACCAGTGCCTCAGCTTCAGCAAGTACC
TCAGCATCTGAATCAGCATCAACAAGTGCATCAGCTTCAGCAAGCACCAGTGCGTCGGCT
TCCGCATCAACAAGTGCTTCAGCCTCAGCATCGACAAGTGCCTCGGCTTCAGCAAGCACA
TCAGCATCTGAATCAGCGTCAACCAGTGCTTCGGCTTCAGCAAGTACCAGTGCATCAGCT
TCAGCGTCAACCAGTGCATCAGCTTCAGCGTCAACAAGTGCATCAGCTTCAGCGTCAACC
AGTGCATCAGCCTCAGCATCGACAAGCGCTTCAGCTTCAGCGTCAACCAGTGCGTCAGCT
TCAGCAAGTACCTCAGCGTCTGAATCGGCCTCAACCAGTGCATCTGAATCGGCATCAACC
AGTGCCTCAGCCTCAGCAAGTACTAGCGCCTCAGCCTCAACCAGTGCTTCAGTCTCAGCG
TCAACCAGTGCCTCTGAATCCGCATCAACAAGTGCATCGGCTTCAGCAAGCACCAGTGCG
TCGGCTTCAGCGTCAACCAGTGCATCAGCTTCAGCATCAACGAGTGCATCGGCTTCAGCG
TCAACCAGTGCATCAGTCTCAGCAAGCACCAGTGCGTCGGCTTCAGCAAGTACTAGCGCC
TCAGCCTCAACCAGTGCCTCAGCCTCAGCAAGTACTAGTGCATCAGCTTCAGCATCAACG
AGTGCATCGGCTTCAGCGTCAACCAGTGCATCAGAGTCAGCAAGTACCAGTGCGTCAGCT
TCCGCATCAACAAGTGCATCGGCTTCAGCAAGCACCAGTGCGTCGGCTTCAGCAAGTACT
AGCGCCTCAGCCTCAGCCTCAACCAGTGCATCGGCTTCAGCGTCAACCAGTGCATCAGCT
TCAGCATCAACGAGTGCATCGGCTTCAGCGTCAACCAGTGCATCAGTCTCAGCAAGCACC
AGTGCGTCGGCTTCAGCAAGTACTAGCGCCTCAGCTTCCGCAAGCACTAGCGCGTCAGCT
TCAGCAAGTACCAGTGCTTCAGCTTCAGCGTCAACCAGCGCAAGTACGTCAGCATCGACA
AGTGCAAGTACGTCCGCATCAACAAGCGCAAGTACGTCAGCAAGTACGTCCGCATCAACA
AGCGCGTCGACCTCAGCAAGTACATCGGCGTCAACAAGTGCAAGTACGTCCGCAAGTACA
TCGGCTTCAACAAGTGCAAGTACGTCCGCTTCAACAAGTGCAAGCACGTCCGCATCAACA
AGCGCGTCGACCTCAGCAAGTACGTCAGCAAGTACATCGGCATCAACAAGCGCAAGTACA
TCGGCAAGCACGTCAGCATCGACAAGTGCAAGTACGTCCGCATCAACAAGCGCGTCGACC
TCAGCAAGTACATCGGCGTCAACAAGTGCAAGTACGTCAGCAAGTACGTCAGCATCAACA
AGCGCAAGTACGTCAGCAAGTACGTCCGCATCAACAAGCGCGTCGACCTCAGCAAGTACG
TCCGCATCAACAAGCGCGTCGACCTCAGCAAGCACGTCCGCATCAACAAGCGCGTCGACC
TCAGCAAGTACATCGGCGTCAACAAGTGCAAGTACGTCAGCAAGTACATCGGCGTCAACA
AGCGCAAGTACGTCAGCAAGTACATCGGCGTCAACAAGTGCAAGTACGTCCGCAAGTACA
TCGGCTTCAACAAGTGCAAGTACGTCCGCATCAACAAGCGCGTCGACCTCAGCAAGTACG
TCAGCAAGTACATCGGCATCAACAAGCGCAAGTACGTCAGCAAGTACATCGGCGTCAACA
AGCGCAAGTACGTCAGCAAGTACATCGGCGTCAACAAGTGCAAGTACGTCCGCAAGTACA
TCGGCATCAACAAGTGCAAGTACGTCAGCAAGTACAAGCGCATCGACCTCAGCAAGTACG
TCCGCATCAACAAGCGCGTCGACCTCAGCAAGCACCAGTGCTTCGGCTTCAGCAAGCACG
TCAGCATCAACAAGCACAAGTACATCGGCAAGCACGTCAGCATCGACAAGTGCAAGCACA
TCGGCGTCAACAAGTGCAAGTACGTCAGCATCTGAATCGGCCTCAACCAGTGCGTCGACT
TCAGCAAGTACAAGCGCCTCAGCCTCAGCAAGTATCTCAGCGTCTGAATCGGCATCAACC
AGCGCCTCAGCCTCAGCATCAACAAGTGCGTCAGCTTCAGCAAGCACATCAGCTTCTGAA
TCCGCATCAACGTCTGCCTCAGCCTCAGCAAGTACAAGTGCATCAGCTTCAGCATCAACC
AGTGCGTCAGCCTCAGCATCAGCAAGTACAAGTGCTTCAGCTTCAGCAAGCACATCAGCT
TCTGAATCCGCATCAACGAGTGCTTCGGCTTCAGCAAGTACCTCAGCGTCTGAATCGGCC
TCAACCAGTGCATCTGAATCGGCATCAACCAGTGCCTCAGCCTCAGCAAGTACTAGCGCC
TCAGCCTCAACCAGTGCTTCAGTCTCAGCGTCAACCAGTGCCTCTGAATCCGCATCAACA
AGTGCATCGGCTTCAGCAAGCACCAGTGCGTCGGCTTCAGCGTCAACCAGTGCATCAGCT
TCAGCATCAACGAGTGCATCGGCTTCAGCGTCAACCAGTGCATCAGTCTCAGCAAGCACC
AGTGCGTCGGCTTCAGCAAGTACTAGCGCCTCAGCCTCAACCAGTGCCTCAGCCTCAGCA
AGTACTAGTGCATCAGCTTCAGCATCAACGAGTGCATCGGCTTCAGCGTCAACCAGTGCA
TCAGAGTCAGCAAGTACCAGTGCGTCAGCTTCCGCATCAACAAGTGCATCGGCTTCAGCG
TCAACCAGTGCGTCGGCTTCAGCAAGTACTAGCGCCTCAGCCTCAGCATCAACGAGTGCA
TCGGCTTCAGCGTCAACCAGTGCATCAGAGTCAGCAAGTACCAGTGCGTCAGCTTCCGCA
TCAACAAGTGCCTCGGCTTCAGCAAGCACCAGTGCGTCGGCTTCAGCAAGTACTAGCGCC
TCAGCCTCAGCCTCAACCAGTGCCTCAGCCTCAGCAAGTATCTCAGCGTCTGAATCGGCA
TCAACGAGTGCGTCGGCTTCAGCAAGTACTAGCGCCTCAGCATCAGCGTCAACCAGTGCG
TCAGCTTCCGCATCAACAAGTGCCTCGGCTTCAGCAAGCACCAGTGCGTCGGCTTCAGCA
AGTACTAGCGCCTCAGCCTCAGCCTCAACCAGTGCCTCAGCCTCAGCAAGTACTAGTGCA
TCAGCTTCAGCATCAACGAGTGCATCAGCCTCAGCAAGTATCTCAGCGTCTGAATCGGCA
TCAACGAGTGCGTCAGCCTCAGCAAGTACATCAGCGTCTGAATCTGCATCGACAAGCGCC
TCAGCTTCAGCAAGCACCAGTGCTTCAGTCTCAGCGTCAACCAGTGCCTCTGAATCCGCA
TCAACGAGTGCGTCCGCTTCAGCAAGCACAAGTGCCTCAGCCTCAGCAAGTACCAGTGCA
TCAGAGTCAGCAAGTACCTCAGCGTCTGAATCGGCCTCAACCAGTGCTTCAGCCTCAGCA
TCGACAAGCGCTTCAGCTTCAGCAAGCACCAGTGCGTCGGCTTCAGCATCAACAAGTGCT
TCAGCCTCAGCAAGTACCAGTGCATCAGAGTCAGCAAGTACCAGTGCGTCAGCTTCAGCG
TCAACCAGCGCCTCAGCCTCAGCAAGTACCAGTGCGTCAGCTTCAGCGTCAACAAGTGCG
TCAGCTTCAGCAAGCACCAGTGCGTCGGCTTCAGCAAGTACCAGTGCTTCGGCTTCAGCA
AGCACCAGCGCCTCAGCTTCAGCATCAACAAGTGCGTCAGCTTCAGCAAGCACCAGCGCC
TCGGTCTCAGCGTCAACAAGTGCTTCAGCCTCAGCAAGCACCTCAGCGTCTGAATCCGCA
TCAACGAGTGCTTCAGCTTCAGCATCAACGAGTGCGTCGGCTTCAGCATCAACGAGTGCG
TCGGCTTCAGCATCAACCAGTGCCTCAGCTTCAGCGTCAACCAGTGCGTCAGCTTCAGCA
AGTACCAGTGCGTCGGCTTCAGCAAGCACCAGCGCCTCGGCTTCAGCATCAACGAGTGCA
TCAGTCTCAGCAAGCACCAGTGCGTCGGCCTCAGCAAGCACCAGCGCGTCTGAATCCGCA
TCAACCAGTGCCTCAGCTTCAGCAAGTACCTCAGCATCTGAATCAGCATCAACAAGTGCA
TCAGCTTCAGCAAGCACCAGTGCGTCGGCTTCCGCATCAACAAGTGCTTCAGCCTCAGCA
TCGACAAGTGCCTCGGCTTCAGCAAGCACATCAGCATCTGAATCAGCGTCAACCAGTGCT
TCGGCTTCAGCAAGTACCAGTGCATCAGCTTCAGCGTCAACCAGTGCATCAGCTTCAGCG
TCAACAAGTGCATCAGCTTCAGCGTCAACCAGTGCATCAGCCTCAGCATCGACAAGCGCT
TCAGCTTCAGCGTCAACCAGTGCGTCAGCTTCAGCAAGTACCTCAGCGTCTGAATCGGCC
TCAACCAGTGCATCTGAATCGGCATCAACCAGTGCCTCAGCCTCAGCAAGTACTAGCGCC
TCAGCCTCAACCAGTGCTTCAGTCTCAGCGTCAACCAGTGCCTCTGAATCCGCATCAACA
AGTGCATCGGCTTCAGCAAGCACCAGTGCGTCGGCTTCAGCGTCAACCAGTGCATCAGCT
TCAGCATCAACGAGTGCATCGGCTTCAGCGTCAACCAGTGCATCAGTCTCAGCAAGCACC
AGTGCGTCGGCTTCAGCAAGTACTAGCGCCTCAGCCTCAACCAGTGCCTCAGCCTCAGCA
AGTACTAGTGCATCAGCTTCAGCATCAACGAGTGCATCGGCTTCAGCGTCAACCAGTGCA
TCAGAGTCAGCAAGTACCAGTGCGTCAGCTTCCGCATCAACAAGTGCATCGGCTTCAGCA
AGCACCAGTGCGTCGGCTTCAGCAAGTACTAGCGCCTCAGCCTCAGCCTCAACCAGTGCA
TCGGCTTCAGCGTCAACCAGTGCATCAGCTTCAGCATCAACGAGTGCATCGGCTTCAGCG
TCAACCAGTGCATCAGTCTCAGCAAGCACCAGTGCGTCGGCTTCAGCAAGTACTAGCGCC
TCAGCTTCCGCAAGCACTAGCGCGTCAGCTTCAGCAAGTACCAGTGCTTCAGCTTCAGCG
TCAACCAGCGCAAGTACGTCAGCATCGACAAGTGCAAGTACGTCCGCATCAACAAGCGCA
AGTACGTCAGCAAGTACGTCCGCATCAACAAGCGCGTCGACCTCAGCAAGTACGTCAGCA
AGTACATCGGCATCAACAAGCGCAAGTACATCGGCAAGCACGTCAGCATCGACAAGTGCA
AGTACGTCCGCATCAACAAGCGCGTCGACCTCAGCAAGTACATCGGCGTCAACAAGTGCA
AGTACGTCAGCAAGTACGTCAGCATCAACAAGCGCAAGTACGTCAGCAAGTACGTCCGCA
TCAACAAGCGCGTCGACCTCAGCAAGTACGTCCGCATCAACAAGCGCGTCGACCTCAGCA
AGCACGTCCGCATCAACAAGCGCGTCGACCTCAGCAAGTACATCGGCGTCAACAAGTGCA
AGTACGTCAGCAAGTACATCGGCGTCAACAAGCGCAAGTACGTCAGCAAGTACATCGGCG
TCAACAAGTGCAAGTACGTCCGCAAGTACATCGGCTTCAACAAGTGCAAGTACGTCCGCA
TCAACAAGCGCGTCGACCTCAGCAAGTACGTCAGCAAGTACATCGGCATCAACAAGCGCA
AGTACGTCAGCAAGTACATCGGCGTCAACAAGCGCAAGTACGTCAGCAAGTACATCGGCG
TCAACAAGTGCAAGTACGTCCGCAAGTACATCGGCTTCAACAAGTGCAAGTACGTCCGCA
TCAACAAGCGCGTCGACCTCAGCAAGTACGTCCGCATCAACAAGCGCGTCGACCTCAGCA
AGCACCAGTGCTTCGGCTTCAGCAAGCACGTCAGCATCAACAAGCACAAGTACATCGGCA
AGCACGTCAGCATCGACAAGTGCAAGCACATCGGCGTCAACAAGTGCAAGTACGTCAGCA
TCTGAATCGGCCTCAACCAGTGCGTCGACTTCAGCAAGTACAAGCGCCTCAGCCTCAGCA
AGTATCTCAGCGTCTGAATCGGCATCAACCAGCGCCTCAGCCTCAGCATCAACAAGTGCG
TCAGCTTCAGCAAGCACATCAGCTTCTGAATCCGCATCAACGTCTGCCTCAGCCTCAGCA
AGTACAAGTGCATCAGCTTCAGCATCAACCAGTGCGTCAGCCTCAGCATCAGCAAGTACA
AGTGCTTCAGCTTCAGCAAGCACATCAGCTTCTGAATCCGCATCAACGAGTGCTTCGGCT
TCAGCAAGCACCTCAGCGTCTGAATCTGCATCAACGTCTGCCTCAGCCTCAGCATCAACA
AGCGCCTCAGCTTCAGCGTCAACCAGTGCCTCGGCTTCAGCATCAACGAGTGCGTCAGCC
TCAGCAAGCACCAGCGCCTCGGCTTCAGCAAGTACTAGCGCCTCAGCTTCAGCAAGTACC
AGTGCGTCATCCTCAGCAAGTACCAGTGCCTCTGAATCCGCATCAACCAGTGCTTCAGCT
TCAGCGTCAACCAGCGCCTCAGCCTCAGCATCGACAAGCGCTTCAGCTTCAGCATCAACC
AGTGCGTCGGCTTCAGCAAGTACCAGTGCGTCATCCTCAGCAAGTACCAGTGCCTCTGAA
TCCGCATCAACCAGTGCTTCAGCTTCAGCGTCAACCAGCGCCTCAGCCTCAGCCTCAACC
AGTGCTTCGGCTTCAGCAAGCACGTCAGCATCAACAAGCGCAAGTACATCGGCAAGCACG
TCAGCATCGACAAGTGCAAGCACATCGGCGTCAACAAGTACTAGTGCATCAGCTTCAGCG
TCAACGAGTGCTTCGGCTTCAGTATCTGCAAGCACATCAGCATCTGAATCCGCATCAACG
AGTGCCTCAGCCTCAGCATCAACCAGTGCCTCGGCTTCAGCATCAACAAGTGCGTCTGAA
TCCGCATCAACGAGTGCTTCGGCTTCAGCAAGTACCAGTGCGTCAGCTTCAGCCTCAACG
AGTGCTTCGGCTTCCGCATCAACAAGTGCGTCAGCTTCAGCAAGCACCAGTGCGTCGGCT
TCAGCATCGACAAGTGCTTCAGCTTCAGCGTCAACCAGTGCTTCAGCTTCAGCATCAACG
AGTGCCTCGGCCTCAGCAAGTACCAGTGCTTCAGCTTCAGCAAGCACCTCAGCGTCTGAA
TCGGCCTCAACGAGTGCGTCAGCTTCAGCAAGCACCAGTGCATCGGCCTCAGCAAGCACA
TCAGCTTCTGAATCCGCATCAACAAGTGCAAGTACGTCAGCTTCAGCAAGCACATCAGCT
TCTGAATCTGCCTCAACAAGTGCCTCAGCTTCAGCATCAACGAGTGCGTCTGAATCAGCA
TCAACGTCTGCCTCAGCCTCAGCGTCAACAAGTGCGTCGGCTTCAGCAAGTACTAGCGCC
TCAGCTTCCGCAAGCACTAGCGCGTCAGCTTCAGCAAGTACCAGTGCATCAGAGTCAGCA
AGTACCTCAGCGTCTGAATCGGCCTCAACCAGTGCCTCAGCCTCAGCAAGTACCAGTGCA
TCAGAGTCAGCAAGTACCTCAGCGTCTGAATCGGCCTCAACCAGTGCTTCAGCCTCAGCA
TCGACAAGCGCTTCAGCTTCAGCAAGCACCAGTGCGTCGGCTTCAGCATCAACAAGTGCT
TCAGCCTCAGCAAGTACCAGTGCATCAGAGTCAGCAAGTACCAGTGCGTCAGCTTCAGCG
TCAACCAGCGCCTCAGCCTCAGCAAGTACCAGTGCGTCAGCTTCAGCGTCAACCAGTGCG
TCAGCTTCAGCAAGCACCAGTGCGTCGGCTTCAGCAAGTACCAGTGCTTCGGCCTCAGCA
TCGACAAGCGCCTCGGCCTCAGCGTCAACAAGTGCTTCAGCCTCAGCAAGCACATCAGCA
TCTGAATCCGCATCAACGAGTGCCTCAGCCTCAGCATCAACCAGTGCCTCGGCTTCAGCA
TCAACAAGTGCGTCTGAATCCGCATCAACGAGTGCTTCGGCTTCAGCAAGTACCAGTGCG
TCAGCTTCAGCCTCAACGAGTGCTTCGGCTTCCGCATCAACAAGTGCGTCAGCTTCAGCA
AGCACCAGTGCGTCAGCCTCAGCAAGCACAAGTGCATCAGCTTCAGCAAGTACAAGTGCG
TCAGCCTCAGCAAGCACAAGTGCATCAGCTTCAGCAAGTACAAGTGCGTCAGCCTCAGCA
TCAACGAGTGCGTCAGCTTCCGCATCAACGAGTGCGTCAGCTTCAGCGTCAACCAGTGCG
TCGGCCTCAGCAAGCACATCAGCTTCTGAATCCGCATCAACAAGTGCAAGTACGTCAGCT
TCAGCAAGTACAAGTGCGTCAGCCTCAGCATCAACAAGTGCCTCAGCTTCCGCATCAACG
AGTGCGTCAGTCTCAGCATCAACGAGTGCCTCAGCTTCAGCAAGTACAAGTGCCTCAGCC
TCAACGAGTGCGTCGGCTTCAGCAAGCACCTCAGCGTCTGAATCTGCATCAACGTCTGCC
TCAGCCTCAGCATCAACGAGTGCGTCAGCTTCAGCGTCAACCAGTGCGTCGGCCTCAGCA
AGCACATCAGCTTCTGAATCCGCATCAACAAGTGCAAGTACGTCAGCTTCAGCAAGTACA
AGTGCGTCAGCCTCAGCATCAACCAGTGCTTCGGCTTCAGCGTCGACAAGTGCCTCTGAA
TCGGCATCAACAAGTGCGTCAGCCTCAGCAAGCACCTCAGCATCTGAATCAGCGTCAACC
AGTGCGTCTGAGTCAGCATCAACGAGTGCCTCAGCTTCAGCGTCAACCAGCGCCTCGGCC
TCAGCATCAACGAGTGCGTCGGCTTCAGCGTCAACCAGTGCGTCAGCTTCAGCAAGTACC
AGCGCCTCAGCTTCAGCGTCAACGAGTGCCTCAGCCTCAGCATCGACAAGTGCCTCAGCT
TCAGCAAGTACAAGTGCGTCAGCCTCAGCATCAACCAGTGCTTCGGCTTCAGCGTCGACA
AGTGCCTCTGAATCGGCATCAACAAGTGCGTCAGCCTCAGCAAGCACCTCAGCGTCTGAA
TCGGCATCAACGAGTGCGTCAGTCTCAGCAAGCACCTCAGCATCTGAATCAGCATCAACG
AGTGCTTCAGCTTCAGCAAGTACCTCAGCTTCTGAATCGGCCTCAACGAGTGCATCAGCT
TCAGCAAGCACCTCAGCGTCTGAATCGGCCTCAACGAGTGCTTCAGTTTCAGCGTCAACC
AGTGCGTCAGCTTCAGCATCAACGAGTGCCTCGGCCTCAGCAAGTACCAGTGCATCAGCT
TCAGCAAGCACCTCAGCGTCTGAATCGGCCTCAACGAGTGCTTCAGTCTCAGCGTCAACC
AGTGCGTCAGCTTCAGCAAGCACCTCAGCATCTGAATCAGCGTCAACCAGTGCGTCTGAG
TCAGCATCAACGAGTGCATCAGCTTCAGCGTCAACCAGCGCCTCGGCCTCAGCATCAACA
AGTGCTTCAGTCTCAGCGTCAACCAGTGCCTCTGAATCCGCATCAACCAGTGCCTCGGCT
TCAGCAAGCACCAGTGCGTCAGCTTCCGCATCAACGAGTGCGTCGGCTTCAGCGTCAACC
AGCGCCTCAGCCTCAGCAAGTACAAGTGCATCAGAGTCAGCAAGTACCAGTGCCTCTGAA
TCCGCATCAACCAGTGCCTCGGCCTCAGCAAGCACAAGTGCGTCTGAATCCGCATCAACC
AGTGCCTCTGAATCGGCATCAACCAGTGCGTCAGCATCCGCATCAACAAGTGCTTCAGCC
TCAGCCTCAACGAGTGCGTCAGCTTCAGCATCAACAAGTGCTTCAGCCTCAGCAAGTACT
AGCGCCTCAGCATCAGCCTCAACAAGTGCTTCAGCTTCAGCGTCAACGAGTGCTTCGGCT
TCAGTATCTGCAAGCACATCAGCATCTGAATCCGCATCAACAAGTGCCTCAGCCTCAGCT
TTAGCAAGCACAAGCGCCTCAGCTTCAGCAAGTACATCAGTTTCAAATTCAGCAAACCAT
TCGAACTCACAAGTTGGAAATACTTCTGGATCGACAGGTAAATCCCAAAAAGAATTGCCT
AATACAGGTACTGAGTCGTCAATTGGATCTGTGTTACTTGGAGTTCTAGCAGCTGTTACA
GGTATTGGATTGGTTGCGAAACGCCGTAAACGTGATGAAGAAGAGTAA
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⊟Protein[edit | edit source]

⊟General[edit | edit source]

locus tag: SPCG_1750
symbol: SPCG_1750
description: cell wall surface anchor family protein
length: 4695
theoretical pI: 3.8499
theoretical MW: 407489
GRAVY: 0.0108413

⊟Function[edit | edit source]

TIGRFAM:
serine-rich repeat adhesion glycoprotein (TIGR04224; HMM-score: 59.7)
and 1 more
Cell structure Cell envelope Other LPXTG cell wall anchor domain (TIGR01167; HMM-score: 26.6)
TheSEED :
- Flagellar hook-length control protein FliK
PFAM:
no clan defined Gram_pos_anchor; LPXTG cell wall anchor motif (PF00746; HMM-score: 48.5)

⊟Structure, modifications & cofactors[edit | edit source]

domains:
modifications:
cofactors:
effectors:

⊟Localization[edit | edit source]

PSORTb: Cellwall
- Cytoplasmic Score: 0.02
- Cytoplasmic Membrane Score: 0.74
- Cellwall Score: 9.24
- Extracellular Score: 0
- Internal Helices: 2
DeepLocPro: Cell wall & surface
- Cytoplasmic Score: 0.0008
- Cytoplasmic Membrane Score: 0.0008
- Cell wall & surface Score: 0.8601
- Extracellular Score: 0.1384
SignalP: no predicted signal peptide
- SP(Sec/SPI): 0.033059
- TAT(Tat/SPI): 0.068401
- LIPO(Sec/SPII): 0.001724
predicted transmembrane helices (TMHMM): 1

⊟Accession numbers[edit | edit source]

GI:
RefSeq: ACB91002 NCBI
UniProt:

⊟Protein sequence[edit | edit source]

MFKVLRGGVDTTQVMTETVEDKVSHSITGLDILKGIVAAGTVISGTVATQTKVFTNESAVLEKTVEKTDALATNGTVVLGTISTSNSASSTSLSASESASTSASESASTSASTSASTSASESASTSASTSISASSTVVGSQTAAATEATAKKVEEDRKKPASDYVASVTNVNLQSYAKRRKRSVDSIEQLLASINAAVFSGNMIVNGAPAINASLNIAKSETKVYTGTGKDSFYNIPIYYQLTVTNDGSKLTFTYTVTYVNPTTKILGNLSNMRPGYSIYNTGTSTQTMLTLGSGLGIPSGVKNSITDKNGRQVRYYNTSTMTKRGSGYTWANGAQMNGLQARREYGLTSSWTVPITGTDTSFTFTPYAAKTDKIRTNYFNGGGKVVESSTTSQSLSQSKSLSVSASQSASASASTSASASASTSASESASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASVSASTSASASASTSASESASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASESASTSASESASTSASASASTSASASTSASVSASTSASESASTSASASASTSASASASTSASASASTSASASASTSASVSASTSASASASTSASASTSASASASTSASASASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASVSASTSASASASTSASASASTSASASASTSASASASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASASASISASESASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASISASESASTSASASASTSASESASTSASASASTSASVSASTSASESASTSASASASTSASASASTSASESASTSASESASTSASASASTSASASASTSASASASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASVSASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASVSASTSASASASTSASESASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASESASTSASESASTSASASASTSASASTSASVSASTSASESASTSASASASTSASASASTSASASASTSASASASTSASVSASTSASASASTSASASTSASASASTSASASASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASVSASTSASASASTSASASASTSASASASTSASASASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASASASTSASTSTSTSASTSASTSASTSASTSASTSASESASTSASTSASTSASASASISASESASTSASASASTSASASASTSASESASTSASASASTSASASASTSASASASASTSASASASTSASESASTSASASASTSASESASTSASESASTSASASASTSASASTSASVSASTSASESASTSASASASTSASASASTSASASASTSASASASTSASVSASTSASASASTSASASTSASASASTSASASASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASASASISASESASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASISASESASTSASASASTSASESASTSASASASTSASVSASTSASESASTSASASASTSASASASTSASESASTSASESASTSASASASTSASASASTSASASASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASVSASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASVSASTSASASASTSASESASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASESASTSASESASTSASASASTSASASTSASVSASTSASESASTSASASASTSASASASTSASASASTSASASASTSASVSASTSASASASTSASASTSASASASTSASASASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASVSASTSASASASTSASASASTSASASASTSASASASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASTSASASASTSASTSTSTSASTSASTSASTSASTSASTSASESASTSASTSASTSASASASISASESASTSASASASTSASASASTSASESASTSASASASTSASASASTSASASASASTSASASASTSASESASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASSSASTSASESASTSASASASTSASASASTSASASASTSASASASTSASSSASTSASESASTSASASASTSASASASTSASASASTSASTSASTSASTSASTSASTSASTSTSASASASTSASASVSASTSASESASTSASASASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASESASTSASASASTSASASASTSASESASTSASTSASASTSASESASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASESASTSASESASTSASASASTSASESASTSASESASTSASASASTSASASASTSASASASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASESASTSASASASTSASASASTSASESASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASESASTSASTSASASTSASASASTSASASASTSASVSASTSASASASTSASASTSASASASTSASESASTSASASASTSASASASTSASASASTSASESASTSASTSASASTSASASASTSASASASTSASESASTSASASASTSASESASTSASESASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASESASTSASASASTSASESASTSASVSASTSASESASTSASASASTSASESASTSASASASTSASESASTSASVSASTSASASASTSASASASTSASASASTSASESASTSASVSASTSASASASTSASESASTSASESASTSASASASTSASASASTSASVSASTSASESASTSASASASTSASASASTSASASASTSASASASTSASESASTSASESASTSASASASTSASESASTSASESASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASASTSASASVSASTSASESASTSASASALASTSASASASTSVSNSANHSNSQVGNTSGSTGKSQKELPNTGTESSIGSVLLGVLAAVTGIGLVAKRRKRDEEE

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Contents

⊟Summary[edit | edit source]

⊟Genome View[edit | edit source]

⊟Gene[edit | edit source]

⊟General[edit | edit source]

⊟Accession numbers[edit | edit source]

⊟Phenotype[edit | edit source]

⊟DNA sequence[edit | edit source]

⊟Protein[edit | edit source]

⊟General[edit | edit source]

⊟Function[edit | edit source]

⊟Structure, modifications & cofactors[edit | edit source]

⊟Localization[edit | edit source]

⊟Accession numbers[edit | edit source]

⊟Protein sequence[edit | edit source]

⊟Experimental data[edit | edit source]

⊟Expression & Regulation[edit | edit source]

⊟Operon[edit | edit source]

⊟Regulation[edit | edit source]

⊟Expression data[edit | edit source]

⊟Biological Material[edit | edit source]

⊟Mutants[edit | edit source]

⊟Expression vector[edit | edit source]

⊟lacZ fusion[edit | edit source]

⊟GFP fusion[edit | edit source]

⊟two-hybrid system[edit | edit source]

⊟FLAG-tag construct[edit | edit source]

⊟Antibody[edit | edit source]

⊟Other Information[edit | edit source]

⊟Literature[edit | edit source]

⊟References[edit | edit source]

⊟Relevant publications[edit | edit source]

Search

Navigation menu

⊟Summary[edit | edit source]

⊟Genome View[edit | edit source]

⊟Gene[edit | edit source]

⊟General[edit | edit source]

⊟Accession numbers[edit | edit source]

⊟Phenotype[edit | edit source]

⊟DNA sequence[edit | edit source]

⊟Protein[edit | edit source]

⊟General[edit | edit source]

⊟Function[edit | edit source]

⊟Structure, modifications & cofactors[edit | edit source]

⊟Localization[edit | edit source]

⊟Accession numbers[edit | edit source]

⊟Protein sequence[edit | edit source]

⊟Experimental data[edit | edit source]

⊟Expression & Regulation[edit | edit source]

⊟Operon[edit | edit source]

⊟Regulation[edit | edit source]

⊟Expression data[edit | edit source]

⊟Biological Material[edit | edit source]

⊟Mutants[edit | edit source]

⊟Expression vector[edit | edit source]

⊟lacZ fusion[edit | edit source]

⊟GFP fusion[edit | edit source]

⊟two-hybrid system[edit | edit source]

⊟FLAG-tag construct[edit | edit source]

⊟Antibody[edit | edit source]

⊟Other Information[edit | edit source]

⊟Literature[edit | edit source]

⊟References[edit | edit source]

⊟Relevant publications[edit | edit source]