1d7e | CRYSTAL STRUCTURE OF THE P65 CRYSTAL FORM OF PHOTOACTIVEYELLOW PROTEIN |
1f98 | CRYSTAL STRUCTURE OF THE PHOTOACTIVE YELLOW PROTEIN MUTANTT50V |
1f9i | CRYSTAL STRUCTURE OF THE PHOTOACTIVE YELLOW PROTEIN MUTANTY42F |
1gsv | CRYSTAL STRUCTURE OF THE P65 CRYSTAL FORM OF PHOTOACTIVE YELLOW PROTEIN |
1gsw | CRYSTAL STRUCTURE OF THE P65 CRYSTAL FORM OF PHOTOACTIVE YELLOW PROTEIN G51S MUTANT |
1gsx | CRYSTAL STRUCTURE OF THE P65 CRYSTAL FORM OF PHOTOACTIVE YELLOW PROTEIN G47S/G51S MUTANT |
1kou | CRYSTAL STRUCTURE OF THE PHOTOACTIVE YELLOW PROTEINRECONSTITUTED WITH CAFFEIC ACID AT 1.16 A RESOLUTION |
1nwz | PYP ULTRA-HIGH RESOLUTION STRUCTURE OF A BACTERIALPHOTORECEPTOR |
1odv | PHOTOACTIVE YELLOW PROTEIN 1-25 DELETION MUTANT |
1ot6 | CRYOTRAPPED CRYSTAL STRUCTURE OF THE E46Q MUTANT OFPHOTOACTIVE YELLOW PROTEIN UNDER CONTINUOUS ILLUMINATIONAT 110K |
1ot9 | CRYOTRAPPED STATE IN WILD TYPE PHOTOACTIVE YELLOW PROTEIN,INDUCED WITH CONTINUOUS ILLUMINATION AT 110K |
1ota | E46Q MUTANT OF PHOTOACTIVE YELLOW PROTEIN, P63 AT 295K |
1otb | WILD TYPE PHOTOACTIVE YELLOW PROTEIN, P63 AT 295K |
1otd | STRONG HYDROGEN BONDS IN PHOTOACTIVE YELLOW PROTEIN ANDTHEIR ROLE IN ITS PHOTOCYCLE |
1ote | E46Q MUTANT OF PHOTOACTIVE YELLOW PROTEIN, P65 AT 110K |
1oti | E46Q MUTANT OF PHOTOACTIVE YELLOW PROTEIN, P65 AT 295K |
1s1y | PHOTOACTIVATED CHROMOPHORE CONFORMATION IN PHOTOACTIVEYELLOW PROTEIN (E46Q MUTANT) FROM 10 MICROSECONDS TO 3MILLISECONDS |
1s1z | PHOTOACTIVATED CHROMOPHORE CONFORMATION IN PHOTOACTIVEYELLOW PROTEIN (E46Q MUTANT) FROM 10 TO 500 NANOSECONDS |
1s4r | STRUCTURE OF A REACTION INTERMEDIATE IN THE PHOTOCYCLE OFPYP EXTRACTED BY A SVD-DRIVEN ANALYSIS |
1s4s | REACTION INTERMEDIATE IN THE PHOTOCYCLE OF PYP, INTERMEDIATE OCCUPIED BETWEEN 100 MICRO-SECONDS TO 5 MILLI-SECONDS |
1t18 | EARLY INTERMEDIATE IE1 FROM TIME-RESOLVED CRYSTALLOGRAPHYOF THE E46Q MUTANT OF PYP |
1t19 | EARLY INTERMEDIATE IE2 FROM TIME-RESOLVED CRYSTALLOGRAPHYOF THE E46Q MUTANT OF PYP |
1t1a | LATE INTERMEDIATE IL1 FROM TIME-RESOLVED CRYSTALLOGRAPHY OFTHE E46Q MUTANT OF PYP |
1t1b | LATE INTERMEDIATE IL2 FROM TIME-RESOLVED CRYSTALLOGRAPHY OFTHE E46Q MUTANT OF PYP |
1t1c | LATE INTERMEDIATE IL3 FROM TIME-RESOLVED CRYSTALLOGRAPHY OFTHE E46Q MUTANT OF PYP |
1ts0 | STRUCTURE OF THE PB1 INTERMEDIATE FROM TIME-RESOLVED LAUECRYSTALLOGRAPHY |
1ts6 | STRUCTURE OF THE PB2 INTERMEDIATE FROM TIME-RESOLVED LAUECRYSTALLOGRAPHY |
1ts7 | STRUCTURE OF THE PR CIS WOBBLE AND PR E46Q INTERMEDIATESFROM TIME-RESOLVED LAUE CRYSTALLOGRAPHY |
1ts8 | STRUCTURE OF THE PR CIS PLANAR INTERMEDIATE FROM TIME -RESOLVED LAUE CRYSTALLOGRAPHY |
1ugu | CRYSTAL STRUCTURE OF PYP E46Q MUTANT |
1uwn | THE INITIAL EVENTS IN THE PHOTOCYCLE OF PHOTOACTIVE YELLOW PROTEIN: A COMMON MECHANISM ON LIGHT ACTIVATION IN PHOTORECEPTOR PROTEINS |
1uwp | INITIAL EVENTS IN THE PHOTOCYCLE OF PHOTOACTIVE YELLOW PROTEIN |
1xfn | NMR STRUCTURE OF THE GROUND STATE OF THE PHOTOACTIVE YELLOWPROTEIN LACKING THE N-TERMINAL PART |
1xfq | STRUCTURE OF THE BLUE SHIFTED INTERMEDIATE STATE OF THEPHOTOACTIVE YELLOW PROTEIN LACKING THE N-TERMINAL PART |
2d01 | WILD TYPE PHOTOACTIVE YELLOW PROTEIN, P65 FORM |
2d02 | R52Q MUTANT OF PHOTOACTIVE YELLOW PROTEIN, P65 FORM |
2phy | PHOTOACTIVE YELLOW PROTEIN, DARK STATE (UNBLEACHED) 2PHY 3 |
2pyp | PHOTOACTIVE YELLOW PROTEIN, PHOTOSTATIONARY STATE, 50% GROUND STATE, 50% BLEACHED |
2pyr | PHOTOACTIVE YELLOW PROTEIN, 1 NANOSECOND INTERMEDIATE (287K) |
3phy | PHOTOACTIVE YELLOW PROTEIN, DARK STATE (UNBLEACHED), SOLUTION STRUCTURE, NMR, 26 STRUCTURES |
3pyp | PHOTOACTIVE YELLOW PROTEIN, CRYOTRAPPED EARLY LIGHT CYCLEINTERMEDIATE |
4bbt | THE PR1 PHOTOCYCLE INTERMEDIATE OF PHOTOACTIVE YELLOW PROTEIN |
4bbu | THE PR1 PHOTOCYCLE INTERMEDIATE OF PHOTOACTIVE YELLOW PROTEIN |
4bbv | THE PB0 PHOTOCYCLE INTERMEDIATE OF PHOTOACTIVE YELLOW PROTEIN |