BSC 2085L Lesson 1 PDF

Summary

This document is an A&P lab manual for a course called BSC 2085L. It covers lesson 1, which is about anatomical terminology, the microscope, cells, and mitosis. It introduces anatomical position and useful prefixes and suffixes for describing anatomical structures and processes.

Full Transcript

BSC2085L
A&P Lab I

Lesson 1
Chap. 1: Language of
Anatomy
Chap. 3: Microscope
Chap. 4: Cell/Mitosis
 Chap. 1: Language of Anatomy
Know the proper
anatomical
position! – the
subject faces you
with arms down
and palms facing
you.

**Note: On any figure,
you are responsible for
the terms that are listed
with the figure
 Helpful Prefixes and Suffixes

A- and In- : not (for example: avascular is not vascular, involuntary is
not voluntary)
Adipo- : fat (adipocyte is a fat cell)
Ante- : before (antebrachial is your forearm- before your arm)
Auto-: self (autonomic describes something that functions on its own,
without conscious input, like your autonomic nervous system)
Brach- : arm (brachioradialis is a muscle in your arm near your radius)
Cardio/Cardiac : heart (cardiomyopathy is a disease of heart muscle)
Caudo/Cauda: tail (caudal is used to designate "toward the tail")
Cephal- : head (cephalad is used to designate "toward the head")
-ceps: number of muscle origins (biceps femoris is the muscle near
your femur with two origins- same root as "cephal")
 Helpful Prefixes and Suffixes (cont.)

Cervic-: neck (cervical vertebrae are in your neck)
Chondro- : cartilage (chondrocytes make the cartilage they're
embedded in)
Cleido-: clavicle (sternocleidomastoid is the muscle attached to the
sternum, clavicle, and mastoid process)
Costal: ribs (costal cartilage is rib cartilage)
Crani-: skull (epicranius is the muscle on top of the cranium)
Cyst-: bladder (cystitis is bladder inflammation- can be used to
describe urinary bladder OR gall bladder)
Cyte/Cytic: cell (adipocyte is a fat cell)
Endo- : within/inside (the endocrine system deals with hormones
secreted internally)
Epi-/Supra : above (the epigastric region is above your stomach)
 Helpful Prefixes and Suffixes (cont.)

Exo/Extra: outside (exocrine gland deals with secretions to the
external environment, the extracellular matrix is outside the cells)
Gastric/Gastro: stomach (epigastric region is above your stomach)
Genesis/-poiesis: making of (gluconeogenesis is making new glucose,
hematopoiesis is making new blood cells)
Glyc/Gluc- : sugar/glucose (proteoglycans are made of protein and
sugar, gluconeogenesis is making new glucose)
Hemato- : blood (hematopoiesis is making new blood cells)
Hypo- : below, under (hypogastric region is under the stomach)
Inter- : between (interventricular septum is found between the
ventricles)
Intra- : within
-itis: inflammation (cystitis is bladder inflammation)
 Helpful Prefixes and Suffixes (cont.)

Lacrima-: tears (lacrimal bone surrounds your tear ducts)
Leuko-: white (leukocytes are white blood cells)
Medulla: middle (the medulla of the adrenal glands is in the middle)
Mid/Mes: middle (midbrain, mesencephalon)
Mono/Uni: one (unicellular describes something that is only one cell)
Multi- : many (multinucleated cells have multiple nuclei)
Myo- : muscle (myocardium is heart muscle)
Neo- : new (gluconeogenesis is the production of new glucose)
Neur-: nerves (neuromuscular junction is the junction between nerve
and muscle)
Optic/Ocular: eyes (optic nerve, ocular muscles)
-osis: abnormal (osteoporosis is abnormally porous bone)
 Helpful Prefixes and Suffixes (cont.)

Osteo- : bone (osteoporosis is abnormally porous bone)
Otic: ears
-pathy/-pathic: disease (myopathy is a disease of the muscle)
Peri-: around (periosteum surrounds the bone)
Proteo: protein (proteoglycans are protein and glucose)
Sub: below
Supra- : above (suprachiasmatic nucleus is above the optic chiasm)
Thorac-: chest (thoracic vertebrae are at the level of your chest)
Trans- : across
Figure 1.1 Surface anatomy.
Cephalic (head) Cephalic
Frontal Otic
Orbital Occipital
Nasal
Buccal
Upper limb
Oral Cervical (neck)
Acromial
Mental
Brachial
Cervical Antecubital
Thoracic Olecranal Back (dorsal)
Sternal Antebrachial Scapular
Axillary Carpal
Mammary Vertebral
Abdominal
Umbilical Lumbar

Pelvic Manus (hand) Sacral
Inguinal Palmar
Pollex Gluteal
Digital
Perineal
(between anus
Lower limb and external
Coxal genitalia)
Pubic
(genital) Femoral
Patellar
Popliteal
Crural
Sural
Fibular or peroneal

Thorax
Pedal (foot)
Abdomen
Tarsal
Back (Dorsum) Calcaneal
Digital
Plantar
Hallux

Anterior/Ventral Posterior/Dorsal
© 2019 Pearson Education, Inc.
 Surface Cephalic (head)
Frontal
Orbital

Anatomy/Landmarks Nasal
Buccal
Oral
Upper limb
Acromial
Mental
Brachial
Cervical
Antecubital
You are responsible for Thoracic
Sternal Antebrachial
Carpal
ALL of the proper terms Axillary
Mammary

for the anterior and Abdominal
Umbilical
Manus (hand)
posterior body landmarks! Pelvic
Inguinal Palmar
Pollex
A complete list of the body Digital

landmarks is found on Lower limb
Coxal
Pubic
Page 2-3 of your lab (genital) Femoral

Patellar
manual. Crural

Fibular or peroneal

Thorax
Pedal (foot)
Abdomen
Tarsal
Back (Dorsum)
Digital

Hallux

Anterior/Ventral
 Surface Cephalic
Otic
Occipital
Anatomy/Landmarks Upper limb
Acromial Cervical (neck)
Brachial

Make sure to use the proper Olecranal
Antebrachial
Back (dorsal)
Scapular
terms when identifying the
Vertebral
body landmark.
Lumbar

Sacral

Manus (hand) Gluteal
Digital
Perineal

Lower limb

Femoral

Popliteal

Sural
Fibular or peroneal

Pedal (foot)

Calcaneal Back (Dorsum)

Plantar

Posterior/Dorsal
Table 1.1

Make sure to use the proper
terms when identifying the
body landmark. The proper
terms appear in the REGION
column while the common
term/description is located in
the DESCRIPTION column.

© 2019 Pearson Education, Inc.
 Anatomical Orientation
Figure 1.2 Anatomical terminology
describing body orientation and direction. Orientation is important in
Superior (cephalad)
relaying anatomical
information!
Note: Superior = cephalad
in humans, however
superior = dorsal for a dog
Posterior Anterior
(dorsal) (ventral)

Superior (dorsal)
Proximal

Posterior Anterior
(caudal) (cephalad)

Distal

Inferior (caudal) Inferior (ventral)
 Anatomical
Orientation (cont) Frontal
plane

Median (midsagittal)
plane

Knowing the body planes, Transverse
plane
also important for
relaying information!

Frontal section (through torso) Transverse section (through Median (midsagittal) section
torso, inferior view)

You are not responsible for identifying
the organs in these planes, but you
are responsible for identifying
the body planes seen here

Spinal
Left and Liver Heart Liver Pancreas Vertebral Intestines
Figure 1.3 Planes of the body right lungs
cord Aorta
Spleen
Rectum
column
Stomach Arm Subcutaneous fat layer Body wall
Figure 1.4 Objects can look odd when viewed in section.

Cross section

Midsagittal
section

Frontal sections
 *image from Body Worlds exhibit

The picture above is an example of slices through which plane?
 Major Body Cavities
Cranial
Cranial cavity cavity
(contains brain)

Vertebral
cavity

Dorsal Thoracic
body cavity Pleural
cavity (contains cavity
heart and
lungs) Pericardial
cavity within
the mediastinum
Vertebral cavity
(contains spinal Diaphragm Ventral body
cord) cavity
(thoracic and
Abdominal cavity abdominopelvic
(contains digestive Abdomino-
cavities)
viscera) pelvic
cavity

Pelvic cavity
(contains urinary
Dorsal body cavity bladder, reproductive
Ventral body cavity organs, and rectum)

Lateral view Anterior view

*pleural cavity contains the lung,
pericardial cavity contains the heart
Figure 1.5 Dorsal and ventral body cavities and their subdivisions.
 Other Body Cavities

Middle ear
cavity
Orbital
cavity
(orbit)
Synovial
cavity
in a joint
Nasal between neck
cavity vertebrae

Oral cavity
(mouth)

Figure 1.9 Other body cavities.

*Note: synovial cavities are found in all synovial
joints, not just the joint found between vertebrae
Epithelial Membranes Line the Ventral Body
Cavity

The ventral body cavity is lined with epithelial cells (forms a
membrane). This membrane is called the serosa (or serous
membrane). Two layers to the serosa:
1. Parietal serosa – lines the cavity wall
2. Visceral serosa – covers the surface of the organs
within the cavity
– Note: specific names of the serous membranes
depends on the structures they surround. Ex. Pleura
surrounds lungs; pericardium surrounds heart
 Epithelial Membranes – serous membranes

Parietal Parietal
peritoneum pleura

Visceral Visceral
peritoneum pleura

Parietal Visceral
pericardium pericardium
Figure 1.6 Serous membranes of the ventral body cavities.

Serous membranes are a type of epithelial membrane – compartmentalizes
various organs (prevents spread of infection from one organ to another)
 Abdominopelvic Quadrants

Right upper Left upper
quadrant quadrant
(RUQ) (LUQ)

Right lower Left lower
quadrant quadrant
(RLQ) (LLQ)

Figure 1.7 Abdominopelvic quadrants.
 Abdominopelvic Regions

Right Epigastric Left
hypochondriac region hypochondriac
region region

You need to know Right Left
lumbar Umbilical lumbar
region
all of these regions! region region

Right iliac Hypogastric Left iliac
(inguinal) (pubic) (inguinal)
region region region

Figure 1.8a Abdominopelvic regions.
 Abdominopelvic Regions of Organs

You need to know
which organs occupy
which regions!
Liver Diaphragm
Spleen
Gallbladder Stomach

Ascending colon of Transverse colon
large intestine of large intestine
Small intestine Descending colon
of large intestine
Cecum Initial part of
sigmoid colon
Appendix
Urinary bladder

Figure 1.8b Abdominopelvic regions.
 Abdominopelvic Regions

Region Organ(s)
Right hypochondriac liver, gallbladder, diaphragm
Right lumbar ascending colon, small intestine
Right iliac cecum, appendix
Epigastric liver, stomach, diaphragm
Umbilical small intestine, transverse colon
Hypogastric small intestine, sigmoid colon,
rectum, urinary bladder
Left hypochondriac diaphragm, spleen, stomach
Left lumbar small intestine, descending colon
Left iliac initial segment of sigmoid colon
 Chap. 3: The Microscope
Ocular lenses

Rotating
nosepiece
Arm

Mechanical Stage
stage
Objective lenses
Condenser
knob Condenser
(regulates
height of Iris diaphragm
condenser) lever

Coarse
adjustment Mechanical stage
knob controls

Fine Substage light
adjustment
knob

Base
Light control
 Microscope components

Arm: connects the base and head of the microscope
Mechanical stage: consists of spring clips or clamps to hold a
slide in position
Mechanical stage control: moves the mechanical stage and
slide held by the mechanical stage
Stage: platform that a slide rests on
Coarse adjustment knob: used for initial focusing of slide
image
Fine adjustment knob: used for precise focusing of slide
image after coarse focusing has been completed
Base: supports the microscope
 Microscope components (cont)

Light control: turns on/off power to the light source
Ocular lenses: eye pieces used to view the magnified image from
the slide
Rotating nosepiece: contains objective lenses, allowing for
changing of lenses for variable magnification of slide image
Objective lenses: used to magnify the slide sample image
Condenser: small substage lens that concentrates the light on the
specimen.
Substage light: light source for microscope (if a mirror is used
instead, it reflects light from an external source)
 Chap. 4: The Cell/Mitosis

Cell: functional unit of all living things. Interior
environment separated from outside by a plasma
membrane. The plasma membrane consists of:
1. Phospholipid bilayer: composed of phospholipids with
a polar head (hydrophilic) and nonpolar tail
(hydrophobic) region.
2. Proteins and cholesterol: proteins and cholesterol
‘float’ in the phospholipid bilayer (Fluid mosaic
model)
1. Integral membrane proteins – proteins that stick thru the
entire membrane
2. Peripheral membrane proteins – proteins that only stick out
on one side of the membrane
Figure 4.2 Structural details of the plasma membrane.

Extracellular fluid
(watery environment
outside cell)

Polar head of Cholesterol
phospholipid
molecule

Nonpolar tail
of phospholipid
molecule

Lipid bilayer
containing proteins

Outward-facing layer
of phospholipids

Inward-facing layer
of phospholipids

Cytoplasm
(watery environment
inside cell)
Integral
proteins Filament of
cytoskeleton

Peripheral
proteins
 The Cell (cont)

General cell structures
Nucleus: contains DNA (deoxyribonucleic acid) in a
thread-like form (chromatin). During cell division,
chromatin condenses and coils into a tightly packed form
called chromosomes. It is bound by a porous double-
layered nuclear envelope.
Nucleolus: assembly site for ribosomes
Plasma membrane: separates external environment from
internal; the membrane is selectively permeable (allows
only certain molecules from entering and leaving)
Cytoplasm/cytosol: fluid inside cell; it suspends the
organelles (small cell organs)
Figure 4.3 Structure of the generalized cell.
Nucleus

Nucleolus

Plasma
membrane

Cytosol
 Cell Organelles

Ribosomes: composed of RNA (ribonucleic acid) and
protein; they are the sites of protein synthesis
Endoplasmic reticulum: system of membranous tubules &
cisternae; they are important in the synthesis and transport
of proteins. There are two types of ER:
– Rough endoplasmic reticulum: contains ribosomes
– Smooth endoplasmic reticulum: lack ribosomes
Golgi apparatus: flattened sacs; they function to package
material. Depending on the packaged material, it can
become part of the plasma membrane, become a lysosome,
or can be secreted from the cell.
Figure 4.3 Structure of the generalized cell.

Smooth endoplasmic
reticulum

Rough
endoplasmic
reticulum

Ribosomes

Golgi apparatus
 Cell Organelles (cont)

Lysosomes: membrane-bound sacs containing digestive
enzymes; they digests worn-out cell structures & foreign
substances
Peroxisomes: similar to lysosomes, but contains oxidases
that use oxygen to detoxify harmful substances
Mitochondria: rod-shaped organelles that produce energy
in the form of ATP; known as the “powerhouses” of the
cell. (Note: the singular of mitochondria is a
mitochondrion)
Centrioles: rod-shaped bodies that are used in cell division
Figure 4.3 Structure of the generalized cell.

Mitochondrion

Lysosome
Centrioles

Peroxisome
 Cell Organelles (cont)

Cytoskeletal elements: form the internal
scaffolding that supports and moves the
substances within the plasma membrane; the 3
main types are:
– Microtubules: important in maintaining cell shape,
suspending organelles, transporting substances, and cell
division
– Intermediate filaments: important in providing support
to the cell
– Microfilaments: important in supporting the plasma
membrane and in cell mobility
Figure 4.3 Structure of the generalized cell.

Microfilament

Microtubule

Cytoskeletal Intermediate
elements filaments
 Mitosis

Most cells undergo a two-stage life cycle:
1. Interphase: cell grows as usual and prepares itself
for cell division by duplicating its DNA (stage 1)
2. Cell division: cell duplicates itself to yield two
genetically identical daughter cells (stage 2). The
main events in cell division include:
Mitosis: cell undergoes nuclear division (nucleus divides)
Cytokinesis: cell undergoes cytoplasmic division (divides
the cell’s internal contents into two halves) to form two
identical daughter cells. This process starts with the
formation of a cleavage furrow by actin microfilaments
during late anaphase and continues through and beyond
telophase.
 Mitosis (cont)

Stages in Mitosis:
1) Prophase: Different events occur during early and
late prophase:
a) Early prophase: DNA (in the form of chromatin)
shorten into chromosomes (a chromosome contains
centromere in the middle); the nucleolus disappears;
centrioles split into centrosomes, each one moves
toward the opposite end of the cell
b) Late prophase: nuclear envelope disappears;
mitotic spindles (microtubules) form from the
centrosomes and attach to the centromere of the
chromosomes
Figure 4.4 The interphase cell and the events of cell division. (1 of 2)

Interphase Early Prophase Late Prophase

Polar microtubule
Centrosomes (each Plasma Early Spindle
has 2 centrioles) mitotic pole Fragments
membrane
spindle of nuclear
Aster envelope

Nucleolus Chromatin Chromosome Centromere
Nuclear consisting of two Kinetochore Kinetochore
envelope sister chromatids microtubule
 Mitosis (cont)

2) Metaphase: the chromosomes line up at the center of
the cell. The chromosomes attach onto the mitotic
spindles of the centrioles (which are at opposite ends
of the cell)
3) Anaphase: centromeres split, chromosomes migrate
to opposite ends towards the centrioles
4) Telophase: DNA uncoils into chromatin form,
nuclear envelope reappears around the chromatin
mass, nucleolus reappears within the nucleus,
spindles break down and disappear
Figure 4.4 The interphase cell and the events of cell division. (2 of 2)

Metaphase Anaphase Telophase Cytokinesis

Nucleolus forming Contractile
Nuclear
Spindle ring at
envelope
cleavage
forming
furrow

Metaphase Daughter
plate chromosomes
 This Week’s Activities

✓ Complete Lesson 1: Assignment – Cell Cycle on
Canvas.
✓ Complete TopHat Assignment for Lesson 1.
✓ Make sure you complete both assignments before they
are due (ALL lesson assignments are due at 11:59PM
on the Friday of the week of that lesson, however,
since this is the first week of labs, I am extending the
due date of both assignments to Friday, Sept 6th at
11:59PM )
 This Week’s Activities

✓ Late lab assignments will not be accepted.
✓ Make sure you prepare for your first pre-lab quiz next
week (week of Sept 1st) by reviewing BSC 2085L
Lesson 2.
 Sample of a Pre-Lab Quiz Question if
you were to have a Pre-Lab Quiz for
BSC 2085L Lesson 1
1. The chromosomes line up at the center of the cell
during which stage of the cell cycle?
A. Anaphase
B. Interphase
C. Prophase
D. Metaphase
E. Telophase