Electives

Spring 2025
#28332
PLANTBI 150 101 - DIS 101 offered through Plant and Microbial Biology

Plant Cell Biology

Anna Dmitrievna Dmitrieva
Jan 21, 2025 - May 09, 2025
We
01:00 pm - 01:59 pm
Evans 2
Class #:28332
Units:3

Instruction Mode: In-Person Instruction

Open Seats

6 Unreserved Seats

PLANTBI 150 - DIS 101 Plant Cell Biology more detail
An introduction to the structure, dynamics, and function of plant cells: organelle structure and development; intracellular trafficking of small and macromolecules; cellular signaling; cell division and specialization.
Spring 2025
#28331
PLANTBI 150 001 - LEC 001 offered through Plant and Microbial Biology

Plant Cell Biology

Ksenia V Krasileva, Lorenzo Jamal Washington
Jan 21, 2025 - May 09, 2025
Mo, We, Fr
03:00 pm - 03:59 pm
McCone 141
Class #:28331
Units:3

Instruction Mode: In-Person Instruction

Open Seats

PLANTBI 150 - LEC 001 Plant Cell Biology more detail
An introduction to the structure, dynamics, and function of plant cells: organelle structure and development; intracellular trafficking of small and macromolecules; cellular signaling; cell division and specialization.
Spring 2025
#28538
PLANTBI C148 103 - DIS 103 offered through Plant and Microbial Biology

Microbial Genomics and Genetics

Surya Tripathi
Jan 21, 2025 - May 09, 2025
Tu
05:00 pm - 05:59 pm
Stanley 177
Class #:28538
Units:4

Instruction Mode: In-Person Instruction

Open Seats

2 Unreserved Seats

PLANTBI C148 - DIS 103 Microbial Genomics and Genetics more detail
Course emphasizes bacterial and archaeal genetics and comparative genomics. Genetics and genomic methods used to dissect metabolic and development processes in bacteria, archaea, and selected microbial eukaryotes. Genetic mechanisms integrated with genomic information to address integration and diversity of microbial processes. Introduction to the use of computational tools for a comparative analysis of microbial genomes and determining relationships among bacteria, archaea, and microbial eukaryotes.
Spring 2025
#28108
PLANTBI C148 102 - DIS 102 offered through Plant and Microbial Biology

Microbial Genomics and Genetics

Eleanor Wang
Jan 21, 2025 - May 09, 2025
Fr
11:00 am - 11:59 am
Cory 241
Class #:28108
Units:4

Instruction Mode: In-Person Instruction

Open Seats

1 Unreserved Seats

PLANTBI C148 - DIS 102 Microbial Genomics and Genetics more detail
Course emphasizes bacterial and archaeal genetics and comparative genomics. Genetics and genomic methods used to dissect metabolic and development processes in bacteria, archaea, and selected microbial eukaryotes. Genetic mechanisms integrated with genomic information to address integration and diversity of microbial processes. Introduction to the use of computational tools for a comparative analysis of microbial genomes and determining relationships among bacteria, archaea, and microbial eukaryotes.
Spring 2025
#28107
PLANTBI C148 101 - DIS 101 offered through Plant and Microbial Biology

Microbial Genomics and Genetics

Eleanor Wang
Jan 21, 2025 - May 09, 2025
Th
04:00 pm - 04:59 pm
Mulford 240
Class #:28107
Units:4

Instruction Mode: In-Person Instruction

No Open Seats
PLANTBI C148 - DIS 101 Microbial Genomics and Genetics more detail
Course emphasizes bacterial and archaeal genetics and comparative genomics. Genetics and genomic methods used to dissect metabolic and development processes in bacteria, archaea, and selected microbial eukaryotes. Genetic mechanisms integrated with genomic information to address integration and diversity of microbial processes. Introduction to the use of computational tools for a comparative analysis of microbial genomes and determining relationships among bacteria, archaea, and microbial eukaryotes.
Spring 2025
#28106
PLANTBI C148 001 - LEC 001 offered through Plant and Microbial Biology

Microbial Genomics and Genetics

Michiko E Taga, Adam M Deutschbauer
Jan 21, 2025 - May 09, 2025
Tu, Th
08:00 am - 09:29 am
Birge 50
Class #:28106
Units:4

Instruction Mode: In-Person Instruction

Open Seats

PLANTBI C148 - LEC 001 Microbial Genomics and Genetics more detail
Course emphasizes bacterial and archaeal genetics and comparative genomics. Genetics and genomic methods used to dissect metabolic and development processes in bacteria, archaea, and selected microbial eukaryotes. Genetic mechanisms integrated with genomic information to address integration and diversity of microbial processes. Introduction to the use of computational tools for a comparative analysis of microbial genomes and determining relationships among bacteria, archaea, and microbial eukaryotes.
Spring 2025
#28174
PLANTBI C134 102 - DIS 102 offered through Plant and Microbial Biology

Genome Organization and Nuclear Dynamics

Roland Lacap
Jan 21, 2025 - May 09, 2025
Fr
10:00 am - 10:59 am
Wheeler 222
Class #:28174
Units:3

Instruction Mode: In-Person Instruction

Time Conflict Enrollment Allowed

No Open Seats
PLANTBI C134 - DIS 102 Genome Organization and Nuclear Dynamics more detail
This course focuses on the structure, functions, and dynamics of eukaryotic chromosomes and their organization within cell nuclei. All life on earth relies on genetic information, which is encoded within nucleic acids (DNA and RNA). Most organisms have DNA-based genomes; bacterial and archaeal genomes typically comprise a single circular DNA molecule, while the genomes of most eukaryotes are divided into a variable number of linear DNA molecules. These contiguous DNA strands, along with the associated proteins and other components that contribute to their organization and function, are known as “chromosomes.”
Spring 2025
#28173
PLANTBI C134 101 - DIS 101 offered through Plant and Microbial Biology

Genome Organization and Nuclear Dynamics

Roland Lacap
Jan 21, 2025 - May 09, 2025
Fr
09:00 am - 09:59 am
Wheeler 204
Class #:28173
Units:3

Instruction Mode: In-Person Instruction

Time Conflict Enrollment Allowed

No Open Seats
PLANTBI C134 - DIS 101 Genome Organization and Nuclear Dynamics more detail
This course focuses on the structure, functions, and dynamics of eukaryotic chromosomes and their organization within cell nuclei. All life on earth relies on genetic information, which is encoded within nucleic acids (DNA and RNA). Most organisms have DNA-based genomes; bacterial and archaeal genomes typically comprise a single circular DNA molecule, while the genomes of most eukaryotes are divided into a variable number of linear DNA molecules. These contiguous DNA strands, along with the associated proteins and other components that contribute to their organization and function, are known as “chromosomes.”
Spring 2025
#28172
PLANTBI C134 001 - LEC 001 offered through Plant and Microbial Biology

Genome Organization and Nuclear Dynamics

Gary H Karpen
Jan 21, 2025 - May 09, 2025
Mo, We
09:00 am - 09:59 am
Joan and Sanford I. Weill 101
Class #:28172
Units:3

Instruction Mode: In-Person Instruction

No Open Seats
PLANTBI C134 - LEC 001 Genome Organization and Nuclear Dynamics more detail
This course focuses on the structure, functions, and dynamics of eukaryotic chromosomes and their organization within cell nuclei. All life on earth relies on genetic information, which is encoded within nucleic acids (DNA and RNA). Most organisms have DNA-based genomes; bacterial and archaeal genomes typically comprise a single circular DNA molecule, while the genomes of most eukaryotes are divided into a variable number of linear DNA molecules. These contiguous DNA strands, along with the associated proteins and other components that contribute to their organization and function, are known as “chromosomes.”
Spring 2025
#28162
PLANTBI C114 101 - DIS 101 offered through Plant and Microbial Biology

Introduction to Comparative Virology

Sarah Batarseh, Felix Pahmeier
Jan 21, 2025 - May 09, 2025
Th
05:00 pm - 06:29 pm
Hearst Field Annex A1
Class #:28162
Units:4

Instruction Mode: In-Person Instruction

Open Seats

8 Unreserved Seats

PLANTBI C114 - DIS 101 Introduction to Comparative Virology more detail
This course will provide a comparative overview of virus life cycles and strategies viruses use to infect and replicate in hosts. We will discuss virus structure and classification and the molecular basis of viral reproduction, evolution, assembly, and virus-host interactions. Common features used during virus replication and host cellular responses to infection will be covered. Topics also included are common and emerging virus diseases, their control, and factors affecting their spread.
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