Magnetic effects across biochemistry, molecular biology and environmental chemistry : genes, brain and cancer under magnetic control / A.L. Buchachenko.

Format:

Book

Author/Creator:

Buchachenko, A.L.

Language:

English

Subjects (All):

Magnetochemistry.

Genre:

Electronic books.

Physical Description:

1 online resource

Place of Publication:

[S.l.] : Academic Press, 2023.

Contents:

Front Cover

Magnetic Effects Across Biochemistry, Molecular Biology and Environmental Chemistry

Copyright

Contents

Prologue

Why magnetic fields modify chemistry and biology?

1

How magnetic fields modify chemistry and biochemistry

1.1 Radical pair mechanism of the magnetic control

1.2 Spin conversion by magnetic field

1.3 Spin conversion by nuclear magnetic field

1.4 Spin is a main actor in magnetobiology

References

2

Magnetic catalysis of liquid phase reactions

2.1 Magnetic catalysis by external magnetic field

2.2 Nuclear magnetic catalysis

2.2.1 Magnetic isotope effect as the universal phenomenon

2.2.2 Fractionation of magnetic and nonmagnetic isotopes

2.2.3 Chemically induced nuclear polarization

2.2.4 Chemical maser

2.3 Electron spin catalysis

Further reading

3

Solid-state chemistry in magnetic fields

3.1 Solid-state reactions under magnetic control

3.2 Magnetic field-induced crystal plasticity

3.3 Microwave-induced plasticity

3.4 Magnetic memory of diamagnetic crystals

References

4

Magnetic scenarios in environmental chemistry

4.1 Magnetic isotopes as a means to elucidate environmental chemistry

4.2 Magnetic isotopes in living organisms

5

Enzymatic ATP synthesis under magnetic control

5.1 Magnetic control of enzymatic ATP synthesis

5.2 Nuclear magnetic control of mitochondria

5.3 Radical pair mechanism as a means to control ATP synthesis

5.4 Magnetic field effect on the ATP synthesis

5.5 Why magnetic effects in biology are ambiguous and contradictory?

6

Gene chemistry under magnetic control

6.1 DNA synthesis: nucleophile mechanism

6.2 Magnetic control of the DNA synthesis

6.2.1 Magnesium ions in the DNA synthesis

6.2.2 Calcium and zinc ions

6.3 Enzymatic radical pair mechanism

6.3.1 Why electron transfer occurs

6.3.2 Magnetic field effect on the DNA synthesis

6.3.3 Does biological longevity depend on the magnetic fields?

6.4 Does DNA polymerase need the third ion to synthesize DNA?

6.5 Magnetic control of the DNA damage

6.5.1 Electromagnetic control of genes

6.5.2 Magnetically induced DNA damage

6.6 Magnetic control of the DNA repair

7

Magnetically controlled cancer

7.1 Cancer under magnetic field control

7.2 Nuclear magnetic effects on the cancer cells

8

Magnetically controlled brain

9

Magneto-biology in medicine, immunology, and microbiology

9.1 Are magneto-medical effects universal?

9.2 Magneto-stimulated ATP in vivo synthesis

9.3 Immunology in magnetic fields

9.4 Microbiology and reactive oxygen species

Epilogue: Why magneto-biology is attractive?

Present and future of magneto-biology

Index

A

C

D

E

F

G

H

I

K

L

ISBN:

0443298203

9780443298202

OCLC:

1409398263

Access Restriction:

Restricted for use by site license.