Skip to search
Skip to main content
Skip to first result
Martin Rodbell - Profiles in Science
Contact
About
Martin Rodbell
The Martin Rodbell Papers
Home
The Story
Biographical Overview
Early Work in Cellular Metabolism, 1956-1969
Signal Transduction and the Discovery of G-Proteins, 1969-1980
Cells as "Programmable Messengers," 1981-1994
The Nobel Prize and Other Awards
Additional Resources
Glossary
Collection Items
search for
Search
Search
Home
Search results
Search
Search Constraints
Start Over
You searched for:
Creator
Rodbell, Martin, 1925-1998
✖
Remove constraint Creator: Rodbell, Martin, 1925-1998
Language
English
✖
Remove constraint Language: English
Format
Text
✖
Remove constraint Format: Text
1
-
35
of
35
Sort
by Date (oldest to newest)
Relevance
Title (A-Z)
Title (Z-A)
Date (oldest to newest)
Date (newest to oldest)
Number of results to display per page
100
per page
per page
10
per page
20
per page
50
per page
100
per page
View results as:
List
List
Gallery
Gallery
Masonry
Masonry
Slideshow
Slideshow
Search Results
×
[Entry from] Desk Private: Appointments - Memoranda - Reminders - Diary
1 of 35
The Metabolism of Isolated Fat Cells: I. Effects of Hormones on Glucose Metabolism and Lipolysis
2 of 35
ATP? or GTP
3 of 35
Release of Glucagon -- I-125
4 of 35
The Glucagon-Sensitive Adenyl Cyclase System in Plasma Membranes of Rat Liver: II. Comparison Between Glucagon- and Fluoride-Stimulated Activities
5 of 35
The Glucagon-Sensitive Adenyl Cyclase System in Plasma Membranes of Rat Liver: IV. Effects of Guanyl Nucleotides on Binding of 125 I-Glucagon
6 of 35
The Glucagon-Sensitive Adenyl Cyclase System in Plasma Membranes of Rat Liver: V. An Obligatory Role of Guanyl Nucleotides in Glucagon Action
7 of 35
The Glucagon-Sensitive Adenyl Cyclase System in Plasma Membranes of Rat Liver: III. Binding of Glucagon: Method of Assay and Specificity
8 of 35
The Glucagon-Sensitive Adenyl Cyclase System in Plasma Membranes of Rat Liver: I. Properties
9 of 35
Letter from Martin Rodbell to Anil Joshi
10 of 35
5'-Guanylylimidodiphosphate, A Potent Activator of Adenylate Cyclase Systems in Eukaryotic Cells
11 of 35
GTP Stimulates and Inhibits Adenylate Cyclase in Fat Cell Membranes through Distinct Regulatory Processes
12 of 35
The Fat Cell Adenylate Cyclase System: Characterization and Manipulation of Its Biomodal Regulation by GTP
13 of 35
Letter from Martin Rodbell to Peter F. Hall
14 of 35
The Role of Hormone Receptors and GTP-Regulatory Proteins in Membrane Transduction
15 of 35
Letter from Martin Rodbell to Andre DeLean
16 of 35
Gairdner Lecture: Introduction
17 of 35
Signal Transduction in Biological Membranes
18 of 35
Farewell to Somerset, Hello Chapel Hill
19 of 35
The Final Farewell or The Last Ode from Building 6
20 of 35
Programmable Messengers: A New Theory of Hormone Action
21 of 35
Signal Transduction: A Twenty Year History of G-Proteins
22 of 35
Figure 4: Late 1970 Model of the Glucagon-Sensitive Liver Membrane Adenylyl Cyclase As an Information Transfer System
23 of 35
Fig[ure]. 6: 1984 Model of Adenylyl Cyclase System Susceptible to Both Stimulatory and Inhibitory Regulation
24 of 35
Fig[ure]. 1: 1967 Conceptualization of an Hormone-Sensitive Adenylyl Cyclase
25 of 35
Fig[ure]. 5: 1977 Model of Hormonal Stimulation of an Adenylyl Cyclase System
26 of 35
Fig[ure]. 3: Early 1970 Representation of the Hormone Sensitive Adenylyl Cyclase As a System Formed of Three Functional Elements: Discriminator, Transducer, and Amplifier
27 of 35
Fig[ure]. 2: 1969 Conceptualization of Adenylyl Cyclase System Stimulated by Multiple Hormones
28 of 35
The Beginnings of an Endocrinologist
29 of 35
To My Friends: Thoughts from 'On High'
30 of 35
Nobel Banquet 'Speech'
31 of 35
Signal Transduction: Evolution of an Idea
32 of 35
Letter from Martin Rodbell to Joseph J. Hoet
33 of 35
Letter from Martin Rodbell to Leon M. Lederman
34 of 35
Godel's Theorem or Why I Am a Scientist
35 of 35
previous image
next image
Pause Slideshow
Start Slideshow