BIOMG 1350

Last Updated

  • Schedule of Classes - June 22, 2015 4:42PM EDT
  • Course Catalog - June 11, 2015 6:21PM EDT

BIOMG 1350
Introductory Biology: Cell and Developmental Biology

Course information provided by the 2014-2015 Catalog.

The course introduces molecular mechanisms that underlie the organization, division, and growth of individual cells; how they organize during embryonic development to form functional tissues and organs in multicellular organisms; and how their misbehavior contributes to disease. The learning outcomes below indicate the topics and skills that students should master upon completion of the course.


Outcomes

  • The internal organization of the cell, cellular organelles and their main functions.
  • The four major classes of macromolecules in cells.
  • The diversity of structures that allow proteins to execute nearly all of a cell's myriad functions.
  • The molecular basis of various cellular processes such as secretory pathway and the cell cycle.
  • The signaling pathways used by cells to communicate with each other and with their environment.
  • Individual cell behaviors that act to promote form and function of embryonic tissue and organs.
  • How to apply concepts learned in class to interpret hypothetical experimental observations.
  • How to acquire scientific information from various databases and from the primary literature.

Distribution Category (PBS)

When Offered Fall, spring, summer.

Comments Biological sciences majors must take course for a letter grade. Students may not receive credit for BIOG 1140 after taking BIOMG 1350.

View Enrollment Information

Syllabi: none

  •   Regular Academic Session.  Choose one lecture and one discussion.

  • 3 Credits Stdnt Opt

  •  3927 BIOMG 1350   LEC 001

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  • Instruction Mode: In Person

    Biological science majors must take this course for a letter grade.

  •  3928 BIOMG 1350   DIS 201

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    • M

    • Bretscher, A

      Kemphues, K

  • Instruction Mode: In Person

  •  3929 BIOMG 1350   DIS 202

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    • M

    • Bretscher, A

      Kemphues, K

  • Instruction Mode: In Person

  •  3930 BIOMG 1350   DIS 203

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    • M

    • Bretscher, A

      Kemphues, K

  • Instruction Mode: In Person

  •  3931 BIOMG 1350   DIS 204

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    • Bretscher, A

      Kemphues, K

  • Instruction Mode: In Person

  •  3932 BIOMG 1350   DIS 205

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    • Bretscher, A

      Kemphues, K

  • Instruction Mode: In Person

  •  3933 BIOMG 1350   DIS 206

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    • T

    • Bretscher, A

      Kemphues, K

  • Instruction Mode: In Person

  •  3934 BIOMG 1350   DIS 207

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    • T

    • Bretscher, A

      Kemphues, K

  • Instruction Mode: In Person

  •  3935 BIOMG 1350   DIS 208

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    • Bretscher, A

      Kemphues, K

  • Instruction Mode: In Person

  •  3936 BIOMG 1350   DIS 209

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    • Bretscher, A

      Kemphues, K

  • Instruction Mode: In Person

  •  3937 BIOMG 1350   DIS 210

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    • W

    • Bretscher, A

      Kemphues, K

  • Instruction Mode: In Person

  •  4077 BIOMG 1350   DIS 211

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    • Bretscher, A

      Kemphues, K

  • Instruction Mode: In Person

  •  4078 BIOMG 1350   DIS 212

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    • Bretscher, A

      Kemphues, K

  • Instruction Mode: In Person

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    • Bretscher, A

      Kemphues, K

  • Instruction Mode: In Person

  •  4080 BIOMG 1350   DIS 214

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    • Bretscher, A

      Kemphues, K

  • Instruction Mode: In Person

  •  4081 BIOMG 1350   DIS 215

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    • Bretscher, A

      Kemphues, K

  • Instruction Mode: In Person

  •  4228 BIOMG 1350   DIS 216

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    • Bretscher, A

      Kemphues, K

  • Instruction Mode: In Person

  •  4230 BIOMG 1350   DIS 217

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    • R

    • Bretscher, A

      Kemphues, K

  • Instruction Mode: In Person

  •  4487 BIOMG 1350   DIS 218

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    • R

    • Bretscher, A

      Kemphues, K

  • Instruction Mode: In Person