Analysis of interaction between chaperonin GroEL and its substrate using fluorescence correlation spectroscopy.

Citations & References

  • Authors: Pack CG, Nishimura G, Tamura M, Aoki K, Taguchi H, Yoshida M, Kinjo M
  • Journal: Cytometry (1999) 36:247-253
  • ID: PN34247
9ac72b3c32fd33586335dcaacf3be63c_Citations

Interaction kinetics of tetramethylrhodamine transferrin with human transferrin receptor studied by fluorescence correlation spectroscopy.

Citations & References

  • Authors: Schüler J, Frank J, Trier U, Schäfer-Korting M, Saenger W
  • Journal: Biochemistry (1999) 38:8402-8408
  • ID: PN35865
Catalog #
abe28f78fe096c086384706cddc94de4_Citations

On the stator of rotary ATP synthase: the binding strength of subunit delta to (alpha beta)3 as determined by fluorescence correlation spectroscopy.

Citations & References

  • Authors: Häsler K, Pänke O, Junge W
  • Journal: Biochemistry (1999) 38:13759-13765
  • ID: PN34690
4952780ffeb173ba65eef859b8b13c1b_Citations

Effect of electrostatic interactions on the binding of charged substrate to GroEL studied by highly sensitive fluorescence correlation spectroscopy.

Citations & References

  • Authors: Pack CG, Aoki K, Taguchi H, Yoshida M, Kinjo M, Tamura M
  • Journal: Biochem Biophys Res Commun (2000) 267:300-304
  • ID: PN43511
17834a259d3d4f21a1d6f100b015ec93_Citations

Mechanism of the alpha-complementation reaction of E. coli beta-galactosidase deduced from fluorescence correlation spectroscopy measurements.

Citations & References

  • Authors: Meyer-Almes FJ, Wyzgol K, Powell MJ
  • Journal: Biophys Chem (1998) 75:151-160
  • ID: PN43513
65709568780630a7db73155b83acd5a2_Citations

Amyloid beta-peptide polymerization studied using fluorescence correlation spectroscopy.

Citations & References

  • Authors: Tjernberg LO, Pramanik A, Björling S, Thyberg P, Thyberg J, Nordstedt C, Berndt KD, Terenius L, Rigler R
  • Journal: Chem Biol (1999) 6:53-62
  • ID: PN43512
bd236b1695f60cf2ed6a3c313e38e36f_Citations