Structural Entry Filters:

Search Count: 19

8AXI image
8AXI
Sialidases And Fucosidases Of Akkermansia Muciniphila Are Key For Rapid Growth On Colonic Mucin And Nutrient Sharing Amongst Mucin-Associated Human Gut Microbiota
Organism: Akkermansia muciniphila
Method: X-RAY DIFFRACTION
Resolution:1.25 Å Release Date: 2023-03-01
Classification: HYDROLASE
Ligands: DAN, GAL, EDO, CL, CA

8AXS image
8AXS
Sialidases And Fucosidases Of Akkermansia Muciniphila Are Key For Rapid Growth On Colonic Mucin And Nutrient Sharing Amongst Mucin-Associated Human Gut Microbiota
Organism: Akkermansia muciniphila
Method: X-RAY DIFFRACTION
Resolution:1.30 Å Release Date: 2023-03-01
Classification: HYDROLASE
Ligands: SLB, IMD, EDO, CL, CA, SO4, DAN

8AXT image
8AXT
Sialidases And Fucosidases Of Akkermansia Muciniphila Are Key For Rapid Growth On Colonic Mucin And Nutrient Sharing Amongst Mucin-Associated Human Gut Microbiota
Organism: Akkermansia muciniphila
Method: X-RAY DIFFRACTION
Resolution:1.59 Å Release Date: 2023-03-01
Classification: HYDROLASE
Ligands: CA, CL

8AYR image
8AYR
Sialidases And Fucosidases Of Akkermansia Muciniphila Are Key For Rapid Growth On Colonic Mucin And Nutrient Sharing Amongst Mucin-Associated Human Gut Microbiota
Organism: Akkermansia muciniphila
Method: X-RAY DIFFRACTION
Resolution:2.70 Å Release Date: 2023-03-01
Classification: HYDROLASE
Ligands: CA

7OZ8 image
7OZ8
Sulfated Host Glycan Recognition By Carbohydrate Sulfatases Of The Human Gut Microbiota (Bt1918_S1_46)
Organism: Bacteroides thetaiotaomicron vpi-5482
Method: X-RAY DIFFRACTION
Resolution:1.95 Å Release Date: 2022-06-29
Classification: HYDROLASE
Ligands: NGS, ACT

7OZ9 image
7OZ9
Sulfated Host Glycan Recognition By Carbohydrate Sulfatases Of The Human Gut Microbiota (Bt3057-S1_16)

7OZA image
7OZA
Sulfated Host Glycan Recognition By Carbohydrate Sulfatases Of The Human Gut Microbiota (Bt3796_S1_16)
Organism: Bacteroides thetaiotaomicron vpi-5482
Method: X-RAY DIFFRACTION
Resolution:1.50 Å Release Date: 2022-06-29
Classification: HYDROLASE
Ligands: P6G, G4S, CA, MES, 15P, CL

7OZC image
7OZC
Sulfated Host Glycan Recognition By Carbohydrate Sulfatases Of The Human Gut Microbiota (Bt3109_S1_15)

7OZE image
7OZE
Sulfated Host Glycan Recognition By Carbohydrate Sulfatases Of The Human Gut Microbiota (Bt1624-S1_15)

7P24 image
7P24
Sulfated Host Glycan Recognition By Carbohydrate Sulfatases Of The Human Gut Microbiota (Bt3177_S1_11)

7P26 image
7P26
Sulfated Host Glycan Recognition By Carbohydrate Sulfatases Of The Human Gut Microbiota (Bt4631_S1_15)

7ANA image
7ANA
A Single Sulfatase Is Required For Metabolism Of Colonic Mucin O-Glycans And Intestinal Colonization By A Symbiotic Human Gut Bacterium (Bt1622-S1_20)
Organism: Bacteroides thetaiotaomicron vpi-5482
Method: X-RAY DIFFRACTION
Resolution:2.30 Å Release Date: 2021-11-10
Classification: HYDROLASE
Ligands: A2G, CA, NGA, EDO

7AN1 image
7AN1
A Single Sulfatase Is Required For Metabolism Of Colonic Mucin O-Glycans And Intestinal Colonization By A Symbiotic Human Gut Bacterium (Bt1636-S1_20)

7ANB image
7ANB
A Single Sulfatase Is Required For Metabolism Of Colonic Mucin O-Glycans And Intestinal Colonization By A Symbiotic Human Gut Bacterium (Bt1622-S1_20)
Organism: Bacteroides thetaiotaomicron vpi-5482
Method: X-RAY DIFFRACTION
Resolution:2.60 Å Release Date: 2021-10-27
Classification: HYDROLASE
Ligands: SO4, EDO, CA

7OQD image
7OQD
A Single Sulfatase Is Required For Metabolism Of Colonic Mucin O-Glycans And Intestinal Colonization By A Symbiotic Human Gut Bacterium (Bt1636-S1_20)

7ALL image
7ALL
A Single Sulfatase Is Required For Metabolism Of Colonic Mucin O-Glycans And Intestinal Colonization By A Symbiotic Human Gut Bacterium (Bt4683-S1_4)

6KQS image
6KQS
Crystal Structure Of Gh136 Lacto-N-Biosidase From Eubacterium Ramulus - Selenomethionine Derivative
Organism: Eubacterium ramulus atcc 29099
Method: X-RAY DIFFRACTION
Resolution:1.40 Å Release Date: 2020-06-10
Classification: HYDROLASE
Ligands: GOL

6KQT image
6KQT
Crystal Structure Of Gh136 Lacto-N-Biosidase From Eubacterium Ramulus - Native Protein
Organism: Eubacterium ramulus atcc 29099
Method: X-RAY DIFFRACTION
Resolution:2.00 Å Release Date: 2020-06-10
Classification: HYDROLASE
Ligands: PGE, NA

4YWT image
4YWT
Crystal Structure Of Full-Length Glypican-1 Core Protein After Controlled Crystal Dehydration To 87% Relative Humidity
Organism: Homo sapiens
Method: X-RAY DIFFRACTION
Resolution:2.38 Å Release Date: 2015-07-29
Classification: MEMBRANE PROTEIN
Ligands: NAG, CA
Protein Functional Filters: