Record Nr.

UNINA9910983348603321

Autore

Stowe David F

Titolo

Evolution of Bioenergetics from Elements to Life : Emergence of High Energy Mitochondria / / by David F. Stowe

Pubbl/distr/stampa


Cham : , : Springer Nature Switzerland : , : Imprint : Springer, , 2025

ISBN

9783031766688

3031766687

Edizione

[1st ed. 2025.]

Descrizione fisica

1 online resource (350 pages)

Disciplina

572

Soggetti

Biochemistry

Evolution (Biology)

Cardiovascular system

Physiology

Evolutionary developmental biology

Developmental biology

Blood-vessels - Growth

Evolutionary Biology

Cardiovascular Physiology

Evolutionary Developmental Biology

Developmental Biology and Stem Cells

Angiogenesis

Lingua di pubblicazione

Inglese

Formato

Materiale a stampa

Livello bibliografico

Monografia

Nota di contenuto

Chapter 1 Elements of the cosmos as precursors for lifeforms -- Chapter 2 Light metal ions and oxyanions as current carriers for early lifeforms -- Chapter 3 Origin of complex biomolecules on the dawn of lifeforms -- Chapter 4 Genesis of mitochondria to power complex lifeforms -- Chapter 5 Mitochondrial function and bioenergetics -- Chapter 6 Process of oxidative phosphorylation and free radical generation -- Chapter 7 Ionic and molecular regulation of mitochondrial bioenergetics -- Chapter 8 Regulation of bioenergetics in cardiac myocytes -- Chapter 9 Physiology and evolution of the heart.

Sommario/riassunto

This book begins with the creation of the elements used in life and how

these elements, as atoms, bound together into organic compounds and polymerized into lipids, peptides, and nucleotides. The text stresses the role and importance of the elements C, H, O, N, P, S, the univalent and multivalent ions, and the requirement of liquid water to foster prebiotic life. Expert author Dr. David Stowe explains the role of early molecular interactions in developing the first living prokaryote bacteria and their eventual engulfment as organelles to make eukaryotes that allowed their sophistication into specialized cells and large multicellular organisms. The book uniquely traces the genesis of bioenergetics and uses cardiac cell mitochondia as an evolutionary example for modern bioenergetic function. This book is geared toward graduate students, post-doctoral fellows, and other academics interested in evolutionary biochemistry with an emphasis on the early development of bioenergetics leading to modern, high energy mitochondria.