Bioinorganic Chemistry & Biophysics of Plants"Bioinorganic Chemistry & Biophysics of Plants"...
Transcript of Bioinorganic Chemistry & Biophysics of Plants"Bioinorganic Chemistry & Biophysics of Plants"...
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Bioinorganic Chemistry & Biophysics of Plants Lectures P. Kroneck
1. Basics of Coordination Chemistry in Biological Systems
(transition metals – general properties – structural/functional aspects)
2. Magnetic Resonance Spectroscopy as Structural Tool
(electron paramagnetic resonance, nuclear magnetic resonance)
3. Global Cycles of the Elements
(nitrogen, sulfur, metals, and metalloenzymes)
4. From Physiology to Biochemistry to Spectroscopy and Protein Structure
(copper and iron proteins)
5. How to give a good seminar & how to prepare a good poster
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"Bioinorganic Chemistry & Biophysics of Plants"
Introductory Books & References
Frausto da Silva, Williams, 2001
The biological chemistry of the elements, Oxford University Press
H. B. Gray, E. I. Stiefel, J. Selverstone Valentine, I. Bertini, 2007
Biological Inorganic Chemistry: Structure and Reactivity, University Science Books
R. R. Crichton, 2012
Biological Inorganic Chemistry, 2nd edition, Elsevier
Messerschmidt, Huber, Poulos, Wieghardt (eds), 2001; 2004; 2009 on-line
Handbook of Metalloproteins, John Wiley & Sons, LTD
Chemical Reviews, 1996; 2004
Special Issues on Bioinorganic Enzymology, 96, 2237; 104, 347
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Useful web sites
http://http://www.ebi.ac.uk/pdbe/ comprehensive database of all published protein structures
http://www.ncbi.nlm.nih.gov/gquery/gquery.fcgi comprehensive databases (genomes, genes, proteins,
inherited diseases...etc) and various search tools
http://www.brenda-enzymes.org/ comprehensive enzyme database including information on
metal requirements
http://www.webelements.com periodic table of the elements including useful information
on each element
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PDB and PROMISE Databases
• PDB = Protein Data Bank:
http://www.rcsb.org/pdb/home.do; type in
the search field the PDB number:
• 1A70 (for Ferredoxin), 3SBP for Nitrous
Oxide Reductase
• PROMISE at Scripps, San Diego:
htpp://metallo.scripps.edu/PROMISE/
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Bringing Inorganic Chemistry
to Life...
Bioinorganic
Chemistry
Medical
Chemistry/Toxicology
Biochemistry
Physiology Molecular
Biology Biophysics
Structural Biology
Microbiology
Environmental
Chemistry Spectroscopy
Biogeochemistry
Physical Chemistry
Catalysis
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Part 1: Basics of Coordination Chemistry in Biological
Systems
(transition metals – general properties – structural and
functional aspects)
“The application of metals to treat human ailments dates back at
least to the fifth century B.C., and the study and mimicry of
metals in biology is a vibrant subject today”…. Stephen Lippard, J Am Chem Soc (2010), 132, 141689-14693
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The elements/metals of life www.webelements.com
Ca: 1.2 kg
K: 150 g
Na: 70 g
Mg: 20-30 g
Essential
Transition Metals
Fe: 4.5 g
Zn: 2.3 g
Cu: 72 mg
Mo: 9 mg
H He
Li Be B C N O F Ne
Na Mg Al Si P S Cl Ar
K Ca Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge As Se Br Kr
Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe
Cs Ba La Hf Ta W Re Os Ir Pt Au Hg Tl Pb Bi Po At Rn
Transition metals (ions) are
under strict control within the
living cell; usually bound to
proteins, peptides, or other
molecules.
In CHEMISTRY we call this a
TRANSITION METAL COMPLEX 8
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Why Investigate Metals in Biology ?
• There is hardly any important process in
nature which does not depend on a metal
ion; ~ 1/3 of the proteins of the human
genome depend on metal ions
• Novel Materials, Structures and Reactions
• Trigger - Signaling - Sensing - Regulation
• Acid-Base Catalysis
• Redox – Proton & Electron Transfer
(coupled, conservation of energy) 9
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Case 1:Metals in Medicine - DNA – cis-platin
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Case 2: Nitrogen Fixation - Nitrogenase http://en.wikipedia.org/wiki/Nitrogen_cycle
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Case 3: Respiration – Reduction of O2 to H2O Synthesis of ATP – proton-coupled electron transfer (PCET)
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25000 20000 15000 100000
2
4
(
mM
-1 c
m-1
)
Magnetic field (G)
Wavenumber (cm-1)
EPR
ABS
2800 3000 3200 3400
Goal: From highly resolved 3D & Electronic
Structure to Function to Mechanism
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Why (Transition)Metal Ions ?
• Positively Charged
– Lewis Acids
– Stabilization of Anions
• Loosely Bound Electrons
– Redox Active
– Multiple Redox States
– Easily tunable Redox
Potential
• Coupled Redox/Acid Base
Chemistry
• Open Shell Systems
– No Problems with
Spin Restriction
• Sterochemically Flexible
– Large Variety of
Structures.
– Little Reorganization
– Facile Ligand
Addition/Dissociation
• Facilitate Reactions of
Bound Ligands
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(Bio)Metals – Perodic Table - Electrons
i
1s
2s 2p
3s 3p
4s 3d
Sc Ti V Cr Mn Fe Co Ni Cu Zn K Ca
H He
Li Be B C N O F Ne
Ar
Kr
Al Si P S Cl
Ga Ge As Se Br
Na Mg
Mo
W
www.webelements.com
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3d-Orbitals
x
x
x x
x
y
y
y y
y
z
z z
z z
22 rzd
xzd yzd
22 yxd
xyd
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Basic Features of a Metal Protein Complex Chem. Rev. 1996, 96, 2239-2314 (1996) RH Holm, P Kennepohl, E I Solomon, Structural
and Functional Aspects of Metal Sites in Biology
Prot-L| M d- d+
strong attraction
--------
CH4 + O2 +2e- +2H+ H3COH + H2O
Chemistry at the Catalytic Center
(Active site) of the Iron Enzyme
Methane Monooxygenase
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Protein Ligands – Amino Acid Residues
N O S
His
Lys
Tyr
Glu(+Asp)
Ser
Cys
Met
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Sirohemes (Fe+2,
Fe-S cluster)
OO
NH
NH
NH
NH
O
O
O
O
O
O
O OOO
O
O
O
O
D
A B
C
Tetrapyrrole - Versatile Ligand in Biology
N & S
Cycles
Photosynthesis
(Bacterio)- Chlorophylls (Mg+2)
Met biosynthesis
VitB12 (Co+2)
O2 Respiration
F430 (Ni+2)
Methanogenesis
Hemes (Fe+2)
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Molybdopterin, a Dithiolene Ligand (binds both Mo and W) JOURNAL of BIOLOGICAL CHEMISTRY (2009) Vol. 284, p. e10, N Kresge, R D Simoni, R L Hill: The
Discovery and Characterization of Molybdopterin - the Work of K. V. Rajagopalan
Mo-S-Cu Cluster in CO Dehydrogenase from Oligotropha carboxidovorans :
CO + H2O → CO2 + 2 H+ + 2e- H Dobbek et al., Proceedings National Academy of Sciences/USA, 99, 15971-15976 ( 2002) 20
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Geometry – Coordination Number
3
4
5
6
Trigonal Trigonal pyramidal T-shape
Square planar Tetrahedral
Square pyramidal Trigonal bipyramidal
Octahedral
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Geometry is important: Iron Proteins
EI Solomon, et al. (2000), Chem. Rev., 100, 235–350
Rubredoxin
3,4-Protocatechoate
Dioxygenase
Tyrosine
Hydroxylase
Lipoxygenase
Tetrahedron Trigonal
Bipyramide
Tetragonal
Pyramide Octahedron
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Alfred Werner (University
of Zürich/CH, Nobel Prize
in Inorganic Chemistry,
1913)
Co[(NH3)6]Cl3 Co[(NH3)5Cl]Cl2
Color and Magnetism
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[Co(NH3]63+ and [CoF6]
3-
sp3d2 and d2sp3 hybridization
3d 4s 4p 4d
F- F- F- F- F- F-
[CoF6]3-
dxy dxz dyz dz2 dx
2-y
2
NH3 NH3 NH3 NH3NH3 NH3
[Co(NH3)6]3+
sp3d2
d2sp3
Remember: Valence Bond Theory L. Pauling
d6
paramagnetic, S=2
diamagnetic, S=0
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Color and Magnetism Variable Spin States of Metal Centers
OR
High-Spin, S= 5/2 Low-Spin, S= 1/2
Depending on the METAL ION ENVIRONMENT, balance of Crystal
Field Splitting, 10Dq and Spin-Pairing Energy, P
10Dq <
Weak Field
High Spin
10Dq >
Strong Field
Low-Spin
For a d5 configuration, Fe(III)
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Metals – Biological Functions
Metal Function, Enzymes
Na Charge Carrier, Osmolysis/equilibrium
K Charge Carrier, Osmolysis/equilibrium
Mg Structure, ATP/ThDP Binding, Photosynthesis,...
Ca Structure, Signaling, Charge Carrier
V Nitrogen Fixation, Oxidases, O2 Carrier
Cr Unknown! (glucose metabolism ???)
Mo Nitrogen Fixation, Oxidoreductase, O-Transfer
W Oxidoreductases, Acetylene Hydratase
Mn Photosynthesis, Oxidases, Structure,...
Fe Oxidoreductase, O2 Transport + Activation,e--Transfer,...
Co Oxidoreductase, Vitamin B12 (Alkyl Group Transfer)
Ni Hydrogenase, CO Dehydrogenase, Hydrolases, Urease
Cu Oxidoreductases, O2 Transport, e- -Transfer
Zn Structure, Hydrolases, Acid-Base Catalysis... 26
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Oxidation States of Metals in Biology
Metal Valence state (Electron configuration)
Na Na(I)
K K(I)
Mg Mg(II)
Ca Ca(II)
V V(V)=(d0), V(IV)=(d1), V(III)=(d2)
Cr Cr(III)=(d3),Cr(IV)=(d2),Cr(V)=(d1)
Mo Mo(III)=(d3),Mo(IV)=(d2),Mo(V)=(d1), Mo(VI)=(d0)
W W(IV)=(d2) ,W(V) =(d1), W(VI)=(d0)
Mn Mn(V)=(d2),Mn(IV) =(d3),Mn(III) =(d4),Mn(II) =(d5)
Fe Fe(V)=(d3), Fe(IV)=(d4),Fe(III)=(d5),Fe(II)=(d6), Fe(I)?=(d7)
Co Co(III)=(d6), Co(II)=(d7), Co(I)=(d8)
Ni Ni(III)=(d7), Ni(II)=(d8), Ni(I)=(d9)
Cu Cu(III)=(d8), Cu(II)=(d9), Cu(I)=(d10)
Zn Zn(II) =(d10) 27
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Exogenous ligands
Ligand pKa
Acid/base H2O/OH-,O2- 14,~34
HCO3-/CO3
2- 10.3
HPO42-/PO4
3- 12.7
H3CCOO-/H3CCOOH 4.7
HO2- /H2O2 11.6
NH3 /NH4+ 9.3
N3- /N3H
4.8
F-, Cl- Br-, I-/XH 3.5, -7, -9, -11
Neutral O2, CO, NO, RNC
Mn+ O
H
H
d-
d+
d+
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Modulation of pKa
H2O + Mn+ HO- -Mn+ -H+
+H+
Metal pKa
none Ca2+
Mn2+
Cu2+
Zn2+
14.0 13.4
11.1
10.7
10.0
4 orders of
magnitude !
Mn+ O
H
H
d-
d+
d+ 29
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Kinetic Control
[Mn+(H2O)m] -H2O
+H2O
[Mn+(H2O)m-1]
Metal k (s-1)
K+
Ca2+
Mn2+
Fe2+
Ni2+
1x109
3x108
2x107
4x106
4x104
15 orders of
magnitude!
Fe3+ 2x102
Co2+ 3x106
Co3+ <10-6 30
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Water exchange rates M. Eigen, Nobel Prize Lecture 1967
Expressed as lifetime of complexes
Useful to look at reactivity in ligand
exchange reactions - catalysis
inert labile
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Stability of Metal Ion Complexes:
The Irving-Williams Series
Stability order for high-spin divalent metal ion
complexes: Peak at Cu(II), Minimum at Mn(II)
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Strong chelating ligand: EDTA
N N
COOH
COOH
HOOC
HOOC +M
-4H+
Hexadentate Ligand => strong complexing agent;
can be applied to remove metal ions from
biological samples (proteins, nucleic acids). 33
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Protein Chelate: Bacterial Metallothionein (MT)
• 55 amino acids
• One domain
• Not only Cys, but also 2 His
• Cluster similar to mammalian MT: Essentially a distorted piece of mineral (ZnS)
Zn4Cys9His2
cluster
A
B
D C
C. A. Blindauer
et al. (2001) PNAS 98, 9593-9598.
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Biological Chelate: Siderophores
Extremely stable complex of Enterobactin/Fe3+ K~ 1049
Release of Fe through a) degradation of ligand, or b) protonation
and reduction to Fe2+ which binds much weaker to the siderophore.
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Hard and Soft Acid-Base (HSAB) Principle
„Hard“ Ligands prefer „hard“ Metal ions
„Soft“ Ligands prefer „soft“ Metal ions
Ionic Bonds
Covalent Bonds
Metal Ligand
Hard Hard
H+, Na+, K+, Mg2+, Ca2+ H2O, OH-, R-COO-, CO32-
Mn2+, Cr3+, Co3+, Fe3+ NH3, NO3-, R-NH2, R-O-, ROR
Borderline Borderline
Fe2+, Ni2+, Zn2+, Mg2+, Ca2+ NO2-, N2, SO3
2-, N3-, Ph-NH2
Co2+, Cu2+ Imidazole
Soft Soft
Cu+, Pt2+, Au+, Hg2+, Cd2+ R2S, RS-, R3P, CN-, SCN-, O2-
S2-, R-, H- 36
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Modulation/tuning of Redox Potentials E1/2
O-
N
Cu
R2
N N
X X
Cu
X=O-: E1/2 = -1.21 V
X=S-: E1/2 = - 0.83 V
R=CH3 : E1/2 = -0.90 V
R=C2H5 : E1/2 = -0.86 V
R=i-Pr : E1/2 = -0.74 V
R=t-Bu : E1/2 = -0.66 V
Soft Ligand (RS-)
stabilizes Cu(I) state
Positive Potential Steric hindrance forces
tetrahedral geometry,
stabilizes Cu(I) 37
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Influence of Protein Environment
Holm, R.H.; Kennepohl, P.; Solomon, E.I. (1996) Chem. Rev., 96, 2239
=2-5 • Stabilization of unfavorable
metal-ligand combinations
• Low polarity
Hydrophobic chemistry
• Preformed sites
„Entatic State“
• Substrate specific channels and
bindungs sites
• Fine-tuned acid/base chemistry
• Local production of intermediates
– transition states
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Metal Site 1: Blue Cu(II)/(I) Site (Plastocyanin)
Function: Electron Transfer Protein/Photosynthesis
41% Cu 38-45% S
Cu(II) Spin-Distribution
Covalent Cu-Cys -bond is mainly responsible
for its unique properties
EI Solomon, Inorg. Chem. 2006, 45, 8012-8025
PDB Code: 1PLC
HC Freeman, 1978 39
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Metal site 2: Heme Fe(III)/(II)
Sigfridsson, E.; Olsson, M.H.M.; Ryde, U. (2001) J. Phys. Chem. B, 105, 5546
FeIII
NHis
NHis
FeII
NHis
NHis
199.4 pm 200.9 pm
e-
Reorganization energy S(DRML)2
In Cytochromes 4-5 kcal/mol
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Metal Site 3: Iron – Sulfur centers (FeS)
Rubredoxin
[2Fe-2S] Ferredoxin
[2Fe-2S] Rieske center
[3Fe-4S]
[4Fe-4S]
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Modulation of Redox potentials (H bridges)
(a) Stephens, P.J.; Jollie, D.R.; Warshel, A. (1996) Chem. Rev., 96, 2491 (b) Link, T.A. (1999) Adv. Inorg. Chem., 47, 83
E0‘ ~ -400 mV E0‘ ~ +280 mV
(+150 mV without H bridges)
2Fe-2S Ferredoxin 2Fe-2S Rieske
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Proteins Tune the Properties of Metal Ions
Coordination number
– The lower the higher the Lewis acidity
Coordination geometry
– Proteins can dictate distortion
– Distortion can change reactivity of metal ion
Weak interactions - Second Shell Effects
– Hydrogen bonds to bound ligands
– Hydrophobic residues: dielectric constant can change
stability of metal-ligand bonds
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Conclusion
The structural and functional properties of
metal ions in biological systems can be
understood by combining the principles of
coordination chemistry with the knowledge
of the unique environment created by
biomolecules
Bo G. Malmström, Göteborg, 1927-2000
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The Chelate Effect (Entropy)
Multidentate vs unidentate ligands (number of binding sites)
(1) [Cu(H2O)6]2+ + en [Cu(H2O)4(en)]2+ + 2H2O
(2) [Cu(H2O)6]2+ + 2NH3 [Cu(H2O)4(NH3)2]
2+ + 2H2O
6.10enOHCu
OHenOHCuloglog
62
2
242 K
000 STHG DDD
D
D
D
R
S
RT
H
RT
GK
000
expexpexp
-10 molkJ54DH1-10 molJ23 D KS
7.7NHOHCu
OHNHOHCuloglog
2
362
2
22342 K-10 molkJ46DH
1-10 molJ4.8 D KS
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Multidentate Ligands
Monodentate: F-, Br-, Cl-, I-, O2-, S2-, R-O-, Py
Bidentate : Ethylendiamine, MNT, Glycine
Tridentate : Triethylentriamine (TREN)
Tetradentate : Porphyrin
H2N NH2 -S S-
CNNC
CH2
COO-
H2N
NH
NH2 NH2
N
NH
N
HN
N
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