A painting of early Earth showing volcanic activity and photosynthetic prokaryotes in dense mats

Laboratory versions of protobionts, aggregates of abiotically produced molecules Liposome carrying out metabolic functions

Ribozymes – RNA Catalysts that make complementary strands of RNA

The Miller-Urey Experiment (1953) Amino acids created

Stromatolites (bacteria and sediment) in Northern Canada (3.5 Billion Yrs Old) Oldest are in Shark Bay, Australia

Evolutionary clock: Prokaryotes 3.5 billion yrs ago Humans

Cyanobacteria

The First Eukaryotes The oldest fossils of eukaryotic cells date back 2.1 billion years. The hypothesis of endosymbiosis proposes that mitochondria and plastids (chloroplasts and related organelles) were formerly small prokaryotes living within larger host cells An endosymbiont is a cell that lives within a host cell.

The prokaryotic ancestors of mitochondria and plastids probably gained entry to the host cell as undigested prey or internal parasites. In the process of becoming more interdependent, the host and endosymbionts would have become a single organism. Serial endosymbiosis supposes that mitochondria evolved before plastids through a sequence of endosymbiotic events.

Endosymbiotic Sequence : Ancestral photosynthetic eukaryote Photosynthetic prokaryote Mitochondrion Plastid Nucleus Cytoplasm DNA Endoplasmic reticulum Nuclear envelope Ancestral Prokaryote Invagination of Plasma Membrane Serial Endosymbiosis : Aerobic heterotrophic prokaryote Mitochondrion Ancestral heterotrophic eukaryote

Key evidence supporting an endosymbiotic origin of mitochondria and plastids: –Similarities in inner membrane structures and functions. –These organelles transcribe and translate their own DNA. –Their ribosomes are more similar to prokaryotic than eukaryotic ribosomes.

Evolutionary clock: Atmospheric oxygen While oxygen accumulation was gradual between 2.7 and 2.2 billion years ago, it shot up to 10% of current values shortly afterward.

This “corrosive” O 2 had an enormous impact on life, dooming many prokaryote groups. Other species evolved mechanisms to use O 2 in cellular respiration, which uses oxygen to help harvest the energy stored in organic molecules. Copyright © 2002 Pearson Education, Inc., publishing as Benjamin Cummings

Evolutionary clock: Eukaryotes Evolution occurred between bya

The Origin of Multicellularity The evolution of eukaryotic cells allowed for a greater range of unicellular forms. A second wave of diversification occurred when multicellularity evolved and gave rise to algae, plants, fungi, and animals. Comparisons of DNA sequences date the common ancestor of multicellular eukaryotes to 1.5 billion years ago.

The “snowball Earth” hypothesis suggests that periods of extreme glaciation confined life to the equatorial region or deep-sea vents from 750 to 580 million years ago. The Cambrian explosion refers to the sudden appearance of fossils resembling modern phyla in the Cambrian period (535 to 525 million years ago). Fossils in China provide evidence of modern animal phyla tens of millions of years before the Cambrian explosion.

Fossilized Animal Embryos from Chinese Sediments 570 Million Years Old

The Cambrian Radiation of Animals

The Colonization of Land Fungi, plants, and animals began to colonize land about 500 million years ago. Plants and fungi likely colonized land together by 420 million years ago. Arthropods and tetrapods are the most widespread and diverse land animals. Tetrapods evolved from lobe-finned fishes around 365 million years ago.

Some Major Episodes in the History of Life

Table 26.1 p. 519

90% of marine creatures extinct half of all marine creatures and many plant families extinct

Mass Extinctions Occurred at the end of the following periods: Ordovician –438 mya –75% of species disappeared Devonian –360 mya –70% of marine invertebrates disappeared Permian –245 mya –90% of ocean species disappeared Triassic –208 mya –60% of species disappeared Cretaceous –66 mya –75% of species disappeared

Clock Analogy for Some Key Events in Evolutionary History 4-5 mya 475 mya mya 1.5 bya 2.0 bya 3.5 bya

What gases did Miller and Urey use in their experiment back in 1953? What did they create? Of what materials are stromatolites composed? The first land plants appeared…

EK 1D1: There are several hypotheses about the natural origin of life on earth, each with supporting scientific evidence. Students should understand EACH of the following: 1)Primitive Earth provided inorganic precursors from which organic molecules could have been synthesized due to a presence of free available energy and the absenceof a significant quantity of oxygen.

2. In turn, these molecules served as monomers or building blocks for the formation of more complex molecules, including amino acids and nucleotides. 3. The joining of monomers produced polymers with the ability to replicate, store, and transfer information. 4. These complex reaction sets could have occurred in solution (organic soup model) or as reactions on solid reactive surfaces. 5. The RNA World hypothesis proposes that RNA could have been the earliest genetic material.