protists and plants - geneseosimon/bio105/class/guide1610.pdf · protists and plants ... protists,...
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Bio 100 - Study Guide 16
http://skepticwonder.fieldofscience.com/2009_09_01_archive.html
Protists and Plants
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• There is now considerable evidence
– That much of protist diversity has its origins in endosymbiosis
Endosymbiosis in Eukaryotic Evolution
http://evolution.berkeley.edu/evolibrary/article/_0_0/endosymbiosis_03
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• The plastid-bearing lineage of protists
– Evolved into red algae and green algae
• On several occasions during eukaryotic evolution
– Red algae and green algae underwent secondary endosymbiosis, in which they themselves were ingested
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Cyanobacterium
Heterotrophic
eukaryote
Primary
endosymbiosis
Red algae
Green algae
Secondary
endosymbiosis
Secondary
endosymbiosis
Plastid
Dinoflagellates
Apicomplexans
Ciliates
Stramenopiles
Euglenids
Chlorarachniophytes
Plastid
Alv
eola
tes
Figure 28.3
• Diversity of plastids produced by secondary endosymbiosis
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• The conventional model of relationships among the three domains place the archaea as more closely related to eukaryotes than they are to prokaryotes.Similarities include proteins
involved in transcription and translation.
This model places the host cell in the endosymbiotic origin of eukaryotes as resembling an early archaean.
Fig. 28.6
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Under one evolutionary scenario, the endomembrane system of eukaryotes (nuclear envelope, endoplasmic reticulum, Golgi apparatus, and related structures) may have evolved from infoldings of plasma membrane.
Copyright © 2002 Pearson Education, Inc., publishing as Benjamin Cummings
Where did the Nucleus and ER come from?
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Each endosymbiotic event adds a membrane derived from the vacuole membrane of the host cell that engulfed the endosymbiont.
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http://www.life.umd.edu/labs/Delwiche/pubs/endosymbiosis.gif
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• The chimeric origin of the eukaryotic cells contrasts with the classic Darwinian view of lineal descent through a “vertical” series of ancestors.
– The eukaryotic cell evolved by “horizontal” fusions of species from different phylogenetic lineages.
– The metaphor of an evolutionary tree starts to break down at the origin of eukaryotes and other early evolutionary episodes.
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• The conventional cladogram predicts that the only DNA of bacterial origin in the nucleus of eukaryotes are genes that were transferred from the endosymbionts that evolved into mitochondria and plastids.
• Surprisingly, systematists have found many DNA sequences in the nuclear genome of eukaryotes that have no role in mitochondria or chloroplasts.
• Also, modern archaea have many genes of bacterial origin.
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Lynn Margulis
http://www.snowballearth.org/images/Lynn_Margulis.jpg
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1883 ~ AFW Schimper noted that the plastids of plant cells resembled free-
living Cyanobacteria.
1905 ~ Mereschkowsky proposed a reticulated tree of endosymbiosis for the
origin of algal plastids.
1920s ~ Ivan Wallin suggested a bacterial origin for mitochondria.
1959 ~ Stocking and Gifford discovered DNA in the plastids of Spirogyra, a
green algae.
1960s ~ Lynn Margulis argued the case for endosymbiotic origins of
mitochondria and plastids.
1970 ~ Margulis published her argument for the endosymbiotic origin of
eukaryotes in The Origin of Eukaryotic Cells.
1977~ Carl Woese declared the case for prokaryotic endosymbiosis “clear cut”
and “proven”. Other biologists subsequently declared the endosymbiotic theory
demonstrated beyond a reasonable doubt.
1981 ~ In Symbiosis in Cell Evolution, Margulis argued that eukaryotic cells
originated as communities of interacting entities. She extended the argument to
including endosymbiotic incorporation of spirochaetes that developed into
eukaryotic undulopodia -- flagella and cilia. (This proposal has not gained wide
acceptance because flagella lack DNA and do not show ultrastructural
similarities to prokaryotes.)
History of Ideas Concerning Endosymbiosis
http://endosymbionts.blogspot.com/
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• All three domains seem to have genomes that are chimeric mixes of DNA that was transferred across the boundaries of the domains.
• This has lead some researchers to suggest replacing the classical tree with a web-like phylogeny
Copyright © 2002 Pearson Education, Inc., publishing as Benjamin Cummings
Fig. 28.7
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• Protists are an extremely diverse assortment of eukaryotes
• Protists are more diverse than all other eukaryotes and it is hard to generalize about their Characteristics
– a. eukaryotes
– b. not fungi, plants or animals
– c. most are unicellular but some are colonial or multicellular
Evolutionary Trends – Protists and Plants
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Most Protists are aquatic - habitats are also diverse including freshwater and marine species
Figure 28.2a–d
100 m
100 m
4 cm
500 m
The freshwater ciliate Stentor,
a unicellular protozoan (LM)
Ceratium tripos, a unicellular marine dinoflagellate (LM)
Delesseria sanguinea, a multicellular marine red alga
Spirogyra, a filamentous freshwater green alga (inset LM)
(a)
(b)
(c)
(d)
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Protists, the most nutritionally diverse of all eukaryotes, include
– Photoautotrophs, which contain chloroplasts
– Heterotrophs, which absorb organic molecules or ingest larger food particles
– Mixotrophs, which combine photosynthesis and heterotrophic nutrition
– Often discussed by their ecology – feeding patterns
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Reproduction and life cycles
–Are also highly varied among protists, with both sexual and asexual species
–exhibit “evolution” of mitosis and meiosis
–Exhibit all three types of life cycles.
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• The most complex life cycles include an alternation of generations
–The alternation of multicellular haploid and diploid forms
Alternation of Generations
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MEIOSIS FERTILIZATION
n
n
n
n
n
2n
Haploid multicellular
organism
Mitosis Mitosis
Gametes
Zygote
(c) Most fungi and some protistsFigure 13.6 C
• In most fungi and some protists
– Meiosis produces haploid cells that give rise to a haploid multicellular adult organism
– The haploid adult carries out mitosis, producing cells that will become gametes
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MEIOSIS FERTILIZATION
nn
n
nn
2n2n
Haploid multicellular
organism (gametophyte)
Mitosis Mitosis
Spores
Gametes
Mitosis
Zygote
Diploid
multicellular
organism
(sporophyte)
(b) Plants and some algaeFigure 13.6 B
• Plants and some algae
– Exhibit an alternation of generations
– The life cycle includes both diploid and haploid multicellular stages
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• In animals
– Meiosis occurs during gamete formation
– Gametes are the only haploid cells
Gametes
Figure 13.6 A
Diploid
multicellular
organism
Key
MEIOSIS FERTILIZATION
n
n
n
2n2nZygote
Haploid
Diploid
Mitosis
(a) Animals
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• Dinoflagellates
– Are a diverse group of aquatic photoautotrophs and heterotrophs
– Are abundant components of both marine and freshwater phytoplankton (some are heterotrophs
– Have internal plates of cellulose
– Have 2 flagella in perpendicular grooves, spin
– Responsible for red tides – neurotoxin
– Symbionts in coral polyps – coral bleaching
– Are abundant components of both marine and freshwater phytoplankton
Dinoflagellates – Clade Alveolata
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• Each has a characteristic shape
– That in many species is reinforced by internal plates of cellulose
• Two flagella
– Make them spin as they move through the water
Flagella
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• Rapid growth of some dinoflagellates
– Is responsible for causing “red tides,” which can be toxic to humans
http://serc.carleton.edu/microbelife/topics/redtide/general.html
http://www.miamipoison.org/x59.xml
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• Diatoms are unicellular algae
– With a unique two-part, glass-like wall of hydrated silica
Diatoms – Clade Stramenopila
Figure 28.15
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• Diatoms are a major component of phytoplankton
– And are highly diverse
Figure 28.1650 µm
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• Accumulations of fossilized diatom walls
– Compose much of the sediments known as diatomaceous earth
http://www.cndiatomite.com/de.htm
http://www.riograndefarm.org/programs-events/community-garden/garden-guide/may-2010/
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Include many of the species commonly called seaweeds
Are the largest and most complex algae
Are all multicellular, and most are marine
Have the most complex multicellular anatomy of all algae
Figure 28.18
Blade
Stipe
Holdfast
Brown Algae – Clade Stramenopila
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• Red algae and green algae are the closest relatives of land plants
• Over a billion years ago, a heterotrophic protist acquired a cyanobacterial endosymbiont
– And the photosynthetic descendants of this ancient protist evolved into red algae and green algae
Clade - Viridiplantae
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• Red algae
– Are usually multicellular; the largest are seaweeds
– Are the most abundant large algae in coastal waters of the tropics
– Red algae are reddish in color due to an accessory pigment call phycoerythrin, which masks the green of chlorophyll
Figure 28.28a–c(a) Bonnemaisonia hamifera. This red alga
has a filamentous form.
Dulse (Palmaria palmata). This edible
species has a “leafy” form.(b)
A coralline alga. The cell walls of
coralline algae are hardened by calcium
carbonate. Some coralline algae are
members of the biological communities
around coral reefs.
(c)
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• Green algae
– Are named for their grass-green chloroplasts
– Are divided into two main groups: chlorophytes and charophyceans
– Are closely related to land plants
Green Algae
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• Chlorophytes include
– Unicellular, colonial, and multicellular forms
Volvox, a colonial freshwater chlorophyte. The colony is a hollow
ball whose wall is composed of hundreds or thousands of
biflagellated cells (see inset LM) embedded in a gelatinous
matrix. The cells are usually connected by strands of cytoplasm;
if isolated, these cells cannot reproduce. The large colonies seen
here will eventually release the small “daughter” colonies within
them (LM).
(a)
Caulerpa, an inter-
tidal chlorophyte.
The branched fila-
ments lack cross-walls
and thus are multi-
nucleate. In effect,
the thallus is one
huge “supercell.”
(b)
Ulva, or sea lettuce. This edible seaweed has a multicellular
thallus differentiated into leaflike blades and a rootlike holdfast
that anchors the alga against turbulent waves and tides.
(c)
20 µm50 µm
Figure 28.30a–c
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Figure 28.31
Flagella
Cell wall
Nucleus
Regions
of single
chloroplast
Zoospores
ASEXUAL
REPRODUCTION
Mature cell
(n)
SYNGAMY
SEXUAL
REPRODUCTION Zygote
(2n)
MEIOSIS
1 µm
Key
Haploid (n)
Diploid (2n)
+
+
+
+
• Most chlorophytes have complex life cycles
– With both sexual and asexual reproductive stages
In Chlamydomonas,
mature cells are haploid and
contain a single cup-shaped
chloroplast (see TEM at left).
1In response to a
shortage of nutrients, drying
of the pond, or some other
stress, cells develop into gametes.
2
Gametes of opposite
mating types (designated
+ and –) pair off and
cling together. Fusion of
the gametes (syngamy)
forms a diploid zygote.
3
The zygote secretes
a durable coat that
protects the cell against
harsh conditions.
4
After a dormant period, meiosis
produces four haploid individuals (two
of each mating type) that emerge from
the coat and develop into mature cells.
5
When a mature cell repro-
duces asexually, it resorbs its
flagella and then undergoes two
rounds of mitosis, forming four
cells (more in some species).
6
These daughter cells develop flagella
and cell walls and then emerge as
swimming zoospores from the wall of
the parent cell that had enclosed them.
The zoospores grow into mature haploid
cells, completing the asexual life cycle.
7
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Defining the Plant Kingdom
Plantae
Streptophyta
Viridiplantae
Red algae Chlorophytes Charophyceans Embryophytes
Ancestral algaFigure 29.4
• Land plants evolved from green algae
• Researchers have identified green algae called charophyceans as the closest relatives of land plants
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• Comparisons of both nuclear and chloroplast genes
– Point to charophyceans as the closest living relatives of land plants
Genetic Evidence
Chara,
a pond
organism
(a)10 mm
Coleochaete orbicularis, a disk-
shaped charophycean (LM)(b)
40 µm
Figure 29.3a, b
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• Many characteristics of land plants
–Also appear in a variety of algal clades
• Multicellular, eukaryotic, photosynthetic
• Cell walls of cellulose
• Chloroplasts with chlorophylls a and b
Morphological and Biochemical Evidence
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• Five key traits appear in nearly all land plants but are absent in the charophyceans
– Apical meristems
– Alternation of generations
– Walled spores produced in sporangia
– Multicellular gametangia
– Multicellular dependent embryos
Derived Traits of Plants
• Additional derived units
– Such as a cuticle and secondary compounds, evolved in many plant species
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The End