Intramembrane proteases have attracted much attention because of their biological and medical value. The first crystal structure of one of these enzymes begins to solve the mystery of how they work. ©2006 Nature Publishing Group
Intramembrane proteases, which cleave transmem-brane (TM) helices, participate in numerous biolog-ic...
The rapid progress in structural and molecular biology over the past fifteen years has allowed chemi...
One hundred years ago Emil Fischer proposed a descriptive but provocative analogy for molecular reco...
Proteases carry out a wide variety of physiological functions. This review presents a brief history ...
AbstractThe turn of the millennium coincided with the branding of a fundamentally different class of...
Intramembrane proteases hydrolyze peptide bonds within the membrane as a signaling paradigm universa...
Proteases are enzymes catalysing the hydrolysis of peptides or proteins. They are key players in a w...
This chapter elaborates the structural chemistry and the biological aspects of plasmepsins. Plasmeps...
AbstractEndopeptidase classification based on catalytic mechanism and evolutionary history has prove...
Rhomboids were only discovered to be novel proteases in 2001, but progress on understanding this new...
Intramembrane proteases (IMPs) are localized within lipid bilayers of membranes-either the cell memb...
Intramembrane proteases are membrane enzymes whose active site is buried below the surface of the bi...
AbstractRhomboid proteases are a family of integral membrane proteins that have been implicated in c...
Treball Final de Grau en Química. Codi: QU0943. Curs acadèmic: 2018/2019Enzymes are biomolecules mos...
Evolution has crafted thousands of enzymes that are efficient catalysts for a plethora of reactions....
Intramembrane proteases, which cleave transmem-brane (TM) helices, participate in numerous biolog-ic...
The rapid progress in structural and molecular biology over the past fifteen years has allowed chemi...
One hundred years ago Emil Fischer proposed a descriptive but provocative analogy for molecular reco...
Proteases carry out a wide variety of physiological functions. This review presents a brief history ...
AbstractThe turn of the millennium coincided with the branding of a fundamentally different class of...
Intramembrane proteases hydrolyze peptide bonds within the membrane as a signaling paradigm universa...
Proteases are enzymes catalysing the hydrolysis of peptides or proteins. They are key players in a w...
This chapter elaborates the structural chemistry and the biological aspects of plasmepsins. Plasmeps...
AbstractEndopeptidase classification based on catalytic mechanism and evolutionary history has prove...
Rhomboids were only discovered to be novel proteases in 2001, but progress on understanding this new...
Intramembrane proteases (IMPs) are localized within lipid bilayers of membranes-either the cell memb...
Intramembrane proteases are membrane enzymes whose active site is buried below the surface of the bi...
AbstractRhomboid proteases are a family of integral membrane proteins that have been implicated in c...
Treball Final de Grau en Química. Codi: QU0943. Curs acadèmic: 2018/2019Enzymes are biomolecules mos...
Evolution has crafted thousands of enzymes that are efficient catalysts for a plethora of reactions....
Intramembrane proteases, which cleave transmem-brane (TM) helices, participate in numerous biolog-ic...
The rapid progress in structural and molecular biology over the past fifteen years has allowed chemi...
One hundred years ago Emil Fischer proposed a descriptive but provocative analogy for molecular reco...
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