Introduction to Molecular and Cell Biology BIO 150 PDF

Summary

This document provides an overview of the history of molecular and cell biology, detailing key historical landmarks and figures such as Robert Hooke, Anton van Leeuwenhoek, and Matthias Schleiden. It traces the development of cellular and molecular biology, including significant milestones like the discovery of cells, the cell theory, and the development of electron microscopy.

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INTRODUCTION TO MOLECULAR AND CELL BIOLOGY
BIO 150 University of the Philippines - Baguio | Pablo Serrano

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L1A: HISTORICAL LANDMARKS IN DETERMINING CELL STRUCTURE
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OUTLINE
I.

HISTORY OF CELLULAR AND MOLECULAR
BIOLOGY
A. WHAT IS MOLECULAR BIOLOGY
B. MOLECULAR BIOLOGY TIMELINE

HISTORY OF CELLULAR AND MOLECULAR
BIOLOGY
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1665: Robert Hooke
○ Used a primitive microscope to describe small
pores in sections of cork that he called “cells”
○ Hooke’s most important publication was
Micrographia, a 1665 volume documenting
experiments he had made with a microscope.
1674: Anton van Leeuwenhoek
○ Using a microscope, he looked at water droplet
that came from a pond water
○ Reported his discovery of protozoa which he
called “animalcules”
○ He sees bacteria for the first time 9 years later
○ Father of Microbiology
1833: Robert Brown
○ Published his microscopic observation of orchids
clearly describing the cell nucleus
1838: Matthias Schleiden and Theodore Schwann
○ Proposed the cell theory, stating that the
nucleated cell is the universal building block of
plant and animal tissues
○ Cell Theory:
■ All Living things are made up of cells.
■ Cells are the basic units of structure and
function of living things.
■ New cells are only from existing cells
1857: Albert von Kolliker
○ Looked at muscle cells and observed the
mitochondria
1879: Walther Flemming
○ Described with great clarity chromosome
behavior during mitosis in animal cells
1881: Santiago Ramon y Cajal
○ Developed staining methods that revealed the
structure of nerve cells and the organization of
neural tissues
○ Founder of modern neurobiology
1898: Camillo Golgi
○ Applied a staining method using silver nitrate
○ Described the Golgi Apparatus
○ Golgi’s method was used to visualize nervous
tissues in the brain
1902: Theodor Boveri
○ Linked chromosome and heredity by observing
chromosome behavior during sexual reproduction
○ Boveri was the first to see evidence of meiosis in
horse nematode

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1952: Palade, Porter and Sjostrand
○ Developed methods of Electron Microscopy that
enabled many intracellular structures to be seen
for the first time
○ The “big three” in the 1950’s for their pioneering
use of the electron microscope to describe details
of cellular structure that anchored the current
field of cell biology.
A. George Palade
○ First to show the structure of the mitochondrion
(Palade, 1952)
○ Was even able to visualize a structure that was
later identified as ATPase
○ Described small granular components called the
ribosomes (Palade, 1955)
○ Described the Endoplasmic Reticulum
B. Fritiof S. Sjostrand
○ contributed the first high-resolution pictures of
mitochondria
and
dramatically
improved
techniques for ultrathin sectioning with minimal
distortion.
○ Much of his effort went into distinguishing real
observations from distortion artifacts.
1930-1950’s: 3 disciplines merged to give rise to Cell
Biology
○ Cytology: Invention of the electron Microscope
○ Biochemistry: Kreb elucidated the TCA cycle
○ Genetics: Avery, Mcleod & McCarthy; showed
that DNA is the agent of genetic transformation
1952: Hugh Huxely
○ Showed the muscles contains arrays of protein
filaments –the first evidence of the cytoskeleton
○ Along with J. Hanson, they proposed the sliding
theory of muscle contraction
1957: James David Robertson
○ Described the bilayer structure of the cell
membrane, seen for the first time in EM
1960: John Kendrew
○ Described the first detailed protein structure
(sperm whale myoglobin) to a resolution of 0.2
nm using Xray Crystallography
○ Shared the 1962 Nobel Prize in Chemistry with
Max Perutz
1968: Mojmir Petran & Collaborators
○ Developed the Tandem Scanning Microscope,
the first confocal microscope
1974: Elias Lazarides and Klaus Weber
○ Developed the use of fluorescent antibodies to
stain the cytoskeleton
○ Microfilaments: globular protein actin = G actin
○ Microtubules: globular proteins tubulins
○ Intermediate filaments: various fibrous proteins
1994: Martin Chalfie et al.
○ Introduced the green fluorescent protein (GFP)
as a marker in microscopy
○ GFP expression can be used in monitoring gene
expression studies and localization of proteins in
living organisms

LAGRASON, LIECA ANGELINE L. | BS BIOLOGY

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WHAT IS MOLECULAR BIOLOGY
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The attempt to understand biological phenomena in
molecular terms.
The study of gene structure and function at the molecular
level (Weaver, R., 2008)

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MOLECULAR BIOLOGY TIMELINE
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1995: Craig Venter and Hamilton Smith
○ Determined the base sequence of two bacteria:
Haemophilus influenzae and Mycoplasma
genitalium (first free-living organisms to be
sequenced)
○ Sanger Sequencing Method in 6 steps:

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1996: Many investigators
○ Determined the base sequence of the genome of
brewer’s yeast (Saccharomyces cerevisiae) first
eukaryotic organisms to be sequenced
1997: Ian Wilmut et al.
○ Cloned a sheep (Dolly) from an adult sheep
udder cell
1998: Andrew Fire and Craig Mello
○ Discovered that RNAi works by degrading
mRNAs containing the same sequence as an
invading dsRNA
○ RNAi - is a biological process in which RNA
molecules inhibit gene expression by causing the
destruction of specific mRNA
○ How RNAi Work:
■ DICER processes dsRNA creating siRNA
■ siRNA associates with RISC
■ Guided by the siRNA, the siRNA-RISC will
bind to mRNA and cleave – inhibiting
translation

2003: Many Investigators
○ Reported and finished sequence of the human
genome
2007: Craig Venter and colleagues
○ Used traditional sequencing to obtain the first
sequence of an individual human (Craig Venter)
○ Initiated a race in sequencing the entire human
genome
2008: Jian Wang and colleagues
○ Used “next generation” sequencing to obtain the
first sequence on an Asian (Han Chinese) human
2012: Jennifer Doudna & Emmanuelle Charpentier
○ A
programmable
dual-RNA-guided
DNA
endonuclease in adaptive bacterial immunity
○ Search-and-replace genome editing without
double-strand breaks of donor DNA
F.H. Westheimer, Prof Emeritus of Chemistry, Harvard
University
○ “The greatest intellectual revolution of the last 40
years may have taken place in biology. Can
anyone be considered educated today who does
not understand a little about molecular biology?”
Table No. 1 Year and Scientist Summary
YEAR
PERSON
1665
Robert Hooke
1674
Anton Van Leeuwenhoek
1833
Robert Brown
1838
Matthias Schleiden and Theodore Schwann
1857
Alvert von Killiker
1879
Walther Flemming
1881
Santiago Ramon y Cajal
1898
Camillo Golgi
1902
Theodor Boveri
1952
George Palade
Fritiof S. Sjostrand
Porter
1952
Hugh Huxely
1957
James David Robertson
1960
John Kendrew
1968
Mojmir Petran & Collaborators
1974
Elias Lazarides and Klaus Weber
1994
Martin Chalfie et al.
1995
Craig Venter and Hamilton Smith
1996
Many investigators
1997
Ian Wilmut et al.
1998
Andrew Fire and Craig Mello
2003
Many Investigators
2007
Craig Venter and colleagues
2008
Jian Wang and colleagues
2012
Jennifer Doudna & Emmanuelle Charpentier

LAGRASON, LIECA ANGELINE L. | BS BIOLOGY

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