Lipase 3D Structures
Revision as of 12:57, 22 October 2019 by Michal Harel (talk | contribs) (New page: </StructureSection> == 3D Structures of Lipase == Updated on {{REVISIONDAY2}}-{{MONTHNAME|{{REVISIONMONTH}}}}-{{REVISIONYEAR}} {{#tree:id=OrganizedByTopic|openlevels=0| *Eukaryote lipas...)
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3D Structures of Lipase3D Structures of Lipase
Updated on 22-October-2019
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- Eukaryote lipase:
- 1hpl – hLip – horse
- 1hlg – hLip – human - gastric
- 1jmy – hBSSL
- 1akn – cBSSL – cattle
- 2bce - cBSSL (mutant)
- 1f6w - cBSSL – catalytic domain
- 3o0d – Lip – Yarrowia lipolytica
- 4jei – YlLip (mutant)
- 1gpl – Lip – Guinea pig
- 3zpx – Lip – Ustilago maydis
- 6a0w – Lip catalytic domain – bread mold
- 4zrd, 4zre – Lip1 (mutant) – dandruff fungus
- 1hpl – hLip – horse
- Prokaryote lipase:
- 1llf – Lip – Candida cylindracea
- 3g7n – Lip - Penicillium expansum
- 1tia - Lip – Penicillium camemberti
- 2hih – Lip – Staphylococcus hyicus
- 2fx5 – Lip – Pseudomonas mendocina
- 1yzf – Lip – Enterococcus faecalis
- 1dt3, 1dt5, 1dte, 1du4, 1ein, 1tib, 4dyh, 4ea6, 4flf, 4gbg, 4gwl, 4zgb, 6hw1 - TlLip - Thermomyces lanuginose
- 5ap9 – TlLip (mutant)
- 1jfr – Lip – Streptomyces exfoliates
- 5mal – Lip – Streptomyces rimosus
- 2lip – BcLip – open state
- 1cvl – Lip – Chromobacterium viscosum
- 1tic - Lip – Rhizopus oryzae
- 3tgl, 4tgl, 1tgl, 6qpp – RmLip – Rhyzomucor miehei
- 6qpr – RmLip (mutant)
- 2zvd – PsLip - Pseudomonas sp. – open state
- 2z8x - PsLip – extracellular
- 5xpx – PsLip residues 1-388
- 2zj6, 2zj7 – PsLip (mutant)
- 2z8z – PsLip(mutant) – closed state
- 3lip, 3a6z - Lip - Pseudomonas cepacia – open state
- 1qge, 1tah – Lip – Pseudomonas glumae
- 2w22, 6a12 – GtLip – Geobacillus thermocatenulatus
- 5ce5 – GtLip (mutant)
- 1ji3, 1ku0, 4fmp, 4x6u – BstLip – Bacillus stearothermophilus
- 4x71, 4x7b, 4x85, 6s3g, 6s3j, 6s3v, 6fz1, 6fz7, 6fz8, 6fz9, 6fza, 6fzc, 6fzd – BstLip (mutant)
- 1ah7 - Lip – Bacillus cereus
- 2ory – Lip – Photobacterium lypoliticum
- 2z5g, 2dsn – GzLip T1 – Geobacillus zalihae
- 3umj – GzLip (mutant)
- 3p94 – Lip – Parabacteroides distasonis
- 3ngm – Lip – Gibberella zeae
- 3auk - Lip – Geobacillus
- 3uue, 3uuf – Lip – Malassezia globosa
- 4hs9 – Lip – Proteus mirabilis
- 4opm – Lip – Acinetobacter baumannii
- 5ah0 – Lip – Pelosinus fermentans
- 5ah1 – Lip – Clostridium botulinum
- 5ch8 – Lip (mutant) – Penicillium cyclopium
- 1llf – Lip – Candida cylindracea
- Bacterial lipase A
- 3guu – CaLipA – Candida Antarctica
- 2veo – CaLipA – closed state
- 2qua, 2qub – SmLipA – Serratia marcescens
- 2qxt, 2qxu, 1isp, 1i6w, 5ct4, 5ct5, 5ct6, 5cri - BsLipA – Bacillus subtilis
- 3d2a, 3d2b, 3d2c, 1t2n, 1t4m, 5ct8, 5ct9, 5cta, 5cur, 3qzu, 3qmm - BsLipA (mutant)
- 1r4z – BsLipA+Rc-IPG-phosphonate
- 1r50 – BsLipA +Sc-IPG-phosphonate
- 3guu – CaLipA – Candida Antarctica
- Bacterial lipase B
- Bacterial lipase C
- 5nen – SmLipC residues 1-443
- 5nen – SmLipC residues 1-443
- Lipase/colipase complexes. The colipase is a co-enzyme whose binding to lipase optimizes the enzymatic activity
- Hormone-sensitive-lipases (LIPE) hydrolyze the first fatty acid of the triacylglycerol substrate
- Putative lipases; Proteins with unknown function but structural similarity to lipase obtained in structural genomics projects.
- Lipase + inhibitors
- 3l1h – EstE5(LIPE)+FeCl3 – noninvasive inhibitor
- 3l1i, 3l1j - EstE5(LIPE)+CuSO4 – noninvasive inhibitor
- 3lij - EstE5(LIPE)+ZnSO4– noninvasive inhibitor
- 3h18, 3h17 - EstE5 (LIPE)+PMSF
- 3h19, 3h1b, 3h1a – EstE5 (LIPE)+methyl alcohol
- 3h1a – EstE5 SLIPE)+ethyl alcohol
- 3h19 – EstE5 SLIPE)+isopropyl alcohol
- 3g9t, 3g9u - EstE5 (HSLIPE)+p-nitrophenyl butyrate
- 3g9z - EstE5 (LIPE) +p-nitrophenyl caprylate
- 2nw6 – BcLip+ S inhibitor
- 4lip, 5lip, 1r4z, 1r50 – BcLip+ Rc-(Rp,Sp)-1,2-dioctylcarbamoyl-glycero-3-O-phosphonate
- 1k8q - Lip+phosphonate – dog
- 1ex9 – Lip+Rc-(Rp,Sp)-1,2-dioctylcarbamoyl-glycero-3-O-phosphonate – Pseudomonas aeruginosa
- 5tgl – RmLip+N-hexyl-phosphonate
- 1lpb – pLip + colipase+C11 alkyl phosphonate
- 3a70 – PsLip+diethyl phosphate
- 4glb – TlLip + nitrobenzaldehyde
- 4kjx - TlLip + nitrobenzaldehyde + lauric acid
- 4n8s - TlLip + nitrobenzaldehyde + ethylacetoacetate
- 4s0x – TlLip + lauric acid
- 3l1h – EstE5(LIPE)+FeCl3 – noninvasive inhibitor
- Lipase conjugated with analogs to its reaction intermediates
- 1qz3 – EaEst2(mutant) (LIPE)+hexadecanesulfonate
- 1qz3 – EaEst2(mutant) (LIPE)+hexadecanesulfonate
- Bile-salt activated lipase
- Monoacylglycerol lipase
- 3hju, 3jw8 - hMAGL
- 3jwe, 3pe6, 4uuq, 6ax1, 6bq0 – hMAGL + inhibitor
- 4uuq - hMAGLip + SAR
- 5zun – hMAGL (mutant) + inhibitor
- 3rm3, 4lhe, 5xks - BaMAGL – Bacillus
- 3rli – BaMAGL + PMSF
- 4ke7, 4ke8, 4ke9 – BaMAGL + ligand
- 4ke6, 4kea – BaMAGL (mutant) + ligand
- 4zwn – yMAGL – yeast
- 4zxf – yMAGLip + substrate analog
- 6eic – MAGLip – Mycobacterium tuberculosis
- 5xk2 – MAGLip – Aespergillus oryzae
- 3hju, 3jw8 - hMAGL
- Lipase with substrate bound at active site
- Lipase conjugated to transition-state analogs showing the binding mode of the enzyme catalysis
- Lipase+lipase chaperone
- 2es4 – Lip+lipase chaperone C-terminal - Burkholderia glumae
- Lipase 2 or esterase/lipase
- 3v9a,3g9t, 3g9u, 3g9z, 3h19, 3h1a, 3h1b, 3l1h, 3l1i, 3l1j, 3fak, 3h17, 3h18, 3dnm, 3k6k - E/L - uncultured bacteria
- 3w9b - CaE/L
- 4v2i - E/L - Thalassospira
- 4n5h - LrE/L (mutant) - Lactobacillus rhamnosus
- 4n5i - LrE/L + inhibitor
- 4ouk - LrE/L (mutant) + inhibitor
- 4bzz, 4bzw - LpE/L
- 6gup - AfE/L
- 1lgy – Lip2 – Rhizopus niveus
- 1gz7 - CrLip2
- 4jei – Lip2 – Yarrowia lipolytica
- 1thg – Lip2 – Geotrichum candidum
- 3v9a,3g9t, 3g9u, 3g9z, 3h19, 3h1a, 3h1b, 3l1h, 3l1i, 3l1j, 3fak, 3h17, 3h18, 3dnm, 3k6k - E/L - uncultured bacteria