2.2.1 Draw a generalized prokaryotic cell

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2.2.1 Draw a generalized prokaryotic cell as
seen in electron micrographs. 2.2.2 The diagram
with the functions of each Named Structure
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(No Transcript)
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2.3.1 Draw a diagram to show the ultrastructure
of a generalized animal cell as seen in
electron micrographs 2.3.2 Annotate the
diagram with the functions of Each named structure
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3.1.4 Draw a generalized structure of a water
molecule to show the poloarity and the hydrogen
bond formation
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2.4.1 Draw a diagram to show the fluid mosaic
model of a biological membrane
Note include and label using these names
-phospholipid bilayer (point out
hydrophilic head and hydrophobic tail)
-cholesterol -glycoproteins -integral
proteins -peripheral proteins Make sure to use
term plasma membrane, not cell surface membrane
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3.2.2 Draw the basic structure of a
generalized amino acid no details about the R
group are needed
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Glucose
Ribose
3.2.2 Draw the ring structure of glucose and
ribose
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O CH3------(CH2)n--------C
OH
Generalized fatty acid
2.2.4 Draw the structure of glycerol and
a generalized fatty acid dont forget the n
after the (CH2) in the generalized fatty acid
(n means, could be any number of that part of
the molecule)
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A generalized dipeptide
3.2 Draw the structure of a generalized
dipeptide, showing the peptide linkage
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Formation of a dipeptide
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Hydrolysis of a peptide bond
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Key to this picture 1. hydrogen bonds
in PINK 2. Bases in green and purple 3.
Sugar phosphate backbone in black Phosphates
in yellow
3.3.5 Draw a simple diagram of the molecular
structure of DNA -show complementary CG
and AT pairs -identify hydrogen bonds (hold
bases together) -number of H-bonds between
complementary bases not required -details of
base structure not required Your diagram can be
simple, just remember that A and G are double
rings C and T are single rings. Sugar phosphate
backbone goes on outside of ladder Bases are
the rungs of the ladder hydrogen bonds between
bases are in very center
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5.2.1 Draw the carbon cycle to show the
processes involved. Be sure to
include -photosynthesis -respiration -fo
ssilization (you could substitute the
word fossilization for calcareous
sediments above -combustion (burning of
fossil fuels)
Point is to show interaction of living
organisms and the biosphere through processes of
photosynthesis, respiration, fossilization
combustion
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5.3.2 Draw a graph showing the sigmoid
(S-shaped) population growth
curve you could use organisms or population
size for the Y axis as well. S
shape demonstrates that the population
starts slow, rises exponentially, then
plateaus at the carrying capacity of the
environment
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Topic 6.2.1 Draw a diagram of the digestive
system Be sure to include -mouth -liver -e
sophagus -pancreas -stomach -gall
bladder -small intestine -large
intestine -anus
(I have blanked out the items you dont need
that were in this figure)
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6.2.1 Draw a diagram of the heart showing all
four chambers, associated blood vessels,
and valves Include -all blood vessels
connected directly to
the heart -relative wall thickness of
chambers See also Study guide handouts Page 48
(Page title is The Blood System (given out
during unit)
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6.4.4 Draw a diagram of the ventilation system
including trachea, bronchi,
bronchioles, and lungs See also study
guide handout (given during unit) page 51, titled
Gas Exchange
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motor end plate
6.5.2 Draw the structure of a motor neuron
include dendrites, cell body with nucleus,
elongated axon, myelin sheath, nodes
of Ranvier, motor end plates
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Male
Female
6.6.1 Draw diagrams of the adult male and female
reproductive systems see handouts page
54 titled Reproductive Systems given
during unit
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C.3.3 Draw the structure of a mitochondrion as
seen in electron micrographs
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chloroplast envelope
be sure to include -thylakoid membranes -granum -i
nner membrane -outer membrane -starch
grain -stroma containing 70s ribosomes
(dots) -naked dna (dots or small
circles) -lipid droplet (large dot in stroma)
C.4.1 Draw the structure of a chloroplast as seen
in electron micrographs
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Topic C Draw the action spectrum of photosynthesis
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You DO NOT NEED TO Draw the following SLIDES!!!!
They are not for the SL course

• SLIDES 20-34 ARE NOT FOR THE LHS SL BIOLOGY COURSE

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9.1.1 Draw the structure of testis tissue as
seen using a light microscope (draw one
seminiferous tubule in transverse
section with adjacent interstitial cells. show
outer basement membrane,
spermatogonia, developing spermatozoa,
and sertoli (nurse) cells
interstitial cells
spermatogonium
primary spermatocyte
immature spermatids
mature spermatids
secondary spermatocyte
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9.1.4 Draw the structure of the ovary as seen
using a light microscope -show primary
oocytes (primordial follicles) -secondary oocyte
in prophase II (preovulatory follicle) -corpus
luteum -show also a follicle with egg being
released
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Acrosome
layer of follicle cells
centrioles
layer of follicle cells
first polar cell
haploid nucleus
zona pellucida
cortical granules
cytoplasm (yolk)
9.1.6 Draw the structure of a mature sperm and
egg. See also handout p 92 titled
Gametes
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11.2.3 Draw a diagram of the human elbow joint
Be sure to include -cartilage -syn
ovial fluid ( around joint) -tendons -ligame
nts -bones (ulna) -biceps -triceps Be
able to identify the antagonistic muscle pair
(biceps triceps) See also study guide handout p
102 Muscles, joints, and locomotion.
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11.2.5 Draw the structure of skeletal muscle
fibers as seen in electron
micrographs include label -sarcomere
-dark bands -light bands -sarcoplasm
-endoplasmic reticulum
-mitochondria
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renal pelvis
12.2.1 Draw the structure of the kidney
Include -cortex -medulla -renal
pelvis -ureter -renal blood vessels
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Nephron
12.2.2 Draw the structure of a glomerulus and
associated nephron
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13.1.2 Draw a diagram to show the external parts
of a named dicotyledonous plant
include -root, stem, leaf, axillary bud,
terminal bud
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13.1.3 Draw plan diagrams to show the
distribution of tissues in stem, root,
and leaf of a generalized
dicotyledonous plant. (distribution of tissues,
no
cellular structure)
LEAF
vascular bundle
stoma
STEM
vascular cambium
redxylem bluephloem
cortex
pith
epidermis
ROOT
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petal
anther
style
filament
sepal
ovary
13.3.1 Draw the structure of a dicotyledonous
animal-pollinated flower, as seen with
the naked eye and hand lens limit
diagram to sepal, petal, anther, filament,
stigma, style, and ovary
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EXTERNAL
testa
INTERNAL
13.3.4 Draw the external and internal structure
of a named dicotyledonous seed.
(non-endospermic) Include -testa -micropyl
e -embryo root (radicle) -embryo shoot
(plumule) -cotyledons
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G.4.5 Draw a diagram of a nitrogen cycle include
the processes of -nitrogen fixation -denitrific
ation -nitrification -feeding -excretion -root
absorption -decay (ammonification)
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posterior pituitary
H.1.4 Draw a diagram of the hypothalamus and
the pituitary gland include portal vein,
neurosecretory cells, hypothalamus, anterior
pituitary, posterior pituitary
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ducts
secretory cells
acinus
acini
H.2.2 Draw the structural features of exocrine
glands including secretory cells
grouped into acini and ducts
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FYI light microscope section
lumen
circular muscle layer
villi
longitudinal muscle layer
mucosa
transverse section drawing
H.3.1 Draw a portion of the ileum (in
transverse section as seen under a
light microscope) Include mucosa, outer
longitudinal muscle layer, inner circular
muscle layer, mucosa, and villi.