Review the process of meiosis, observing how chromosomes align and migrate, at Meiosis:
Neurophysiology Virtual Lab pilot Neurophysiology is the study of nervous system function.
Primarily, it is connected with neurobiology, psychology, neurology, clinical neurophysiology, electrophysiology, biophysical neurophysiology, ethology, neuroanatomy, cognitive science and other brain sciences. Neuron Simulation Virtual Lab pilot This lab uses a graphical web-based Neuron simulator and models a section of excitable neuronal membrane using the Hodgkin-Huxley equations.
Various experiments will deal with the several parameters of Hodgkin-Huxley equations and will model resting and action potentials, voltage and current clamp, pharmacological effects of drugs that block specific channels etc. This lab complements some of the exercises in the Virtual Neurophysiology lab.
Biochemistry Virtual Lab I Biochemistry is the study of the chemical processes in living organisms. It deals with the structures and functions of cellular components such as proteins, carbohydrates, Observing mitosis and meiosis on cell, nucleic acids and other biomolecules.
The experiments included in Biochemistry Virtual Lab I are fundamental in nature, dealing with the identification and classification of various carbohydrates, acid-base titrations of amino acids, isolation of proteins from their natural sources, etc.
Biochemistry Virtual Lab II Biochemistry Virtual Lab II deals with topics like enzymology, purification of plant pigments and natural products as well as estimation of iodine value and saponification value of fats and oils. Population ecology Virtual Lab I A population is a collection of individuals of the same species that live together in a region.
Population ecology is the study of populations especially population abundance and how they change over time. Crucial to this study are the various interactions between a population and its resources.
Studies on simple models of interacting species is the main focus this simulation oriented lab.
Population ecology Virtual Lab II Population ecology is the study of populations especially population abundance and how they change over time. Studies based on models of predation, competition as seen in interacting species is the main focus this simulation oriented lab.
Lab II focuses on applied principles of population ecology for PG students. Immunology Virtual Lab I The branch of biomedicine concerned with the structure and function of the immune system, innate and acquired immunity, the bodily distinction of self from no self, and laboratory techniques involving the interaction of antigens with specific antibodies.
Immunology Virtual Lab II The branch of biomedicine concerned with the structure and function of the immune system, innate and acquired immunity, the bodily distinction of self from no self, and laboratory techniques involving the interaction of antigens with specific antibodies. Microbiology Virtual Lab I The study of microorganisms, which are unicellular or cell-cluster microscopic organisms.
This includes eukaryotes such as fungi and, protists and prokaryotes. Viruses, though not strictly classed as living organisms, are also studied. Microbiology Virtual Lab II To study the biochemical properties of microorganisms, the various techniques employed in cultivation of fungi and viruses along with the molecular level analysis of microbial genome.
This field overlaps with other areas of biology and chemistry, particularly genetics and biochemistry. Molecular biology chiefly concerns itself with understanding the interactions between the various systems of a cell, including the interactions between DNA, RNA and protein biosynthesis as well as learning how these interactions are regulated.
Cell biology Virtual Lab I Cell biology is an exciting and dynamic area that helps discover the fascinating world of cells.
It includes the study of the structure and organization, growth, regulation, movements and interaction of the cells.
Cell biology is closely related to other areas of biology such as genetics, molecular biology, and biochemistry. Cell biology Virtual Lab II Cell biology is an exciting and dynamic area that helps discover the fascinating world of cells. Bioinformatics Virtual Lab I Bioinformatics is a field which using techniques of informatics to gather, store, analyse and integrate biological data.
This virtual lab is an introductory course for undergraduate students and deals with the storage and retrieval of data from different biological databases like Gene, Pubmed, GEO, TAIR, Prosite etc. Bioinformatics Virtual Lab II This virtual laboratory is for undergraduate and postgraduate students to get a deeper understanding on the analysis of sequence data, its alignment and the evolutionary relationship.
The exercises mainly deal with the different algorithms in sequence alignment and provides a computational exploration to the use of various tools used for sequence alignment. This lab is targeted towards PG students with exercises that will allow one to learn visualising proteins in 3D, how to calculate distance among atoms, find active sites in protein structures and also delve into some structural analysis methods including docking and homology modeling.
Combining labs 1, 2 and 3 will give an overall understanding of commonly used computational methods in bioinformatics.
Ecology Virtual Lab Ecosystems are a complex and delicate balancing game. Ecosystems have an extremely complex web of cause and effect.LabBench Activity Observing Mitosis in a Living Cell. The cell cycle is something like a dance routine or football play — it is a process that runs continuously, but it .
Observing The Different Stages Of Mitosis Biology Essay.
The purpose of this experiment is to detect the different phases of the garlic tissues during mitosis which are prophase, metaphase, anaphase and telophase in life tissue - Observing The Different Stages Of Mitosis Biology Essay introduction.
Students are besides required to see the continuance of the phases of mitosis in relation to. A human cell ordinarily will have 23 pairs of chromosomes, for a total of 46 chromosomes.
At the end of a cell cycle, including mitosis, the new cells will have At the end of a cell cycle, including mitosis. The stages of mitosis can be examined in whitefish blastula and onion root cell tips by using a microscope.
The process of crossing over and the stages of meiosis only occur during the creation of gametes and spores. Yeast IME2 Functions Early in Meiosis Upstream of Cell Cycle from mitosis and meiosis chart.
in the ual life cycles article meiosis mitosis reading and worksheet save mitosis reading and worksheet tips for observing mitosis lab mutations and genetic variability 1 what is occurring in the.
Jan 12, · In this experiment, I was able to study mitosis and the stages of the cell cycle by observing and identifying the stages under a microscope. Calculating the total amount of time that cell spends in each phase of the cell cycle helped me understand the relative time a cell spends in mitosis . Mitosis and meiosis awesome science teacher resources, labs have students do this "observing mitosis lab" using prepared slides of onion (allium) root tips another good "stages of mitosis" lab using onion root tip slidesdo the "modeling meiosis" lab using. Laboratory 8: Mitosis and Meiosis 3 A. Mitosis in the Onion Root-tip The onion root tip is one of the most widely used materials for the study of the cell cycle because it is readily available, preparation of.
cell cycle and mitosis Nuclear and Cytoplasmic Division in the Eukarya Mitosis is the name for the kind of cell division that produces a greater number of cells = cell multiplication ; after division, the daughter cells are about half the size of their parent, and they grow before division occurs again.