Biology

Created by

Sam Jenkins

Cards (110)

Levels of Organization within Organisms
Organelles
Cells
Tissues
Organs
Systems
Organelles 
Subcellular structures that perform specific functions within cells
Cells 
Basic structural and functional units of living organisms
Tissues 
Groups of cells that work together to perform a specific function
Organs 
Structures composed of different tissues that work together to carry out specific functions
Systems 
Collections of organs that cooperate to perform complex physiological functions
Cell Structures 
Nucleus
Cytoplasm
Cell Membrane
Cell Wall
Mitochondria
Chloroplasts
Ribosomes
Vacuole
Nucleus 
Contains genetic material and controls cell activities
Cytoplasm 
Gel-like substance that fills the cell and houses organelles
Cell Membrane 
Selectively permeable barrier that encloses the cell and regulates the passage of substances
Cell Wall 
Rigid outer layer found in plant cells, providing structural support
Mitochondria 
Organelles responsible for energy production through cellular respiration
Chloroplasts 
Organelles found in plant cells that carry out photosynthesis
Ribosomes 
Structures involved in protein synthesis
Vacuole 
Membrane-bound sacs that store water, nutrients, and waste materials
Functions of Cell Structures
Nucleus
Cytoplasm
Cell Membrane
Cell Wall
Mitochondria
Chloroplasts
Ribosomes
Vacuole
Nucleus 
Controls cell activities and contains genetic information
Cytoplasm 
Site of various cellular processes and houses organelles
Cell Membrane 
Controls the movement of substances in and out of the cell
Cell Wall 
Provides structural support and protection in plant cells
Mitochondria 
Produces energy (ATP) through cellular respiration
Chloroplasts 
Carry out photosynthesis, converting light energy into chemical energy
Ribosomes 
Synthesise proteins
Vacuole 
Stores water, nutrients, and waste materials
Similarities and Differences in Plant and Animal Cells
Both have a cell membrane, cytoplasm, and nucleus
Plant cells have a cell wall, while animal cells do not
Plant cells have chloroplasts for photosynthesis, while animal cells do not
Plant cells often have larger vacuoles than animal cells
Cell Differentiation 
The process by which unspecialized cells become specialised to perform specific functions
Cell differentiation plays a crucial role in the development of multicellular organisms
Specialised cells enable the formation of different tissues, organs, and systems, allowing for complex physiological processes
Advantages and Disadvantages of Using Stem Cells in Medicine
Advantages: Stem cells have the potential to differentiate into various cell types and can be used for tissue regeneration and repair. They offer hope for treating diseases and injuries.
Disadvantages: Ethical concerns regarding the use of embryonic stem cells. The potential for immune rejection if stem cells are derived from another individual. The risk of tumour formation if stem cells are not properly controlled.
Photosynthesis 
Carbon dioxide + Water + Light energy → Glucose + Oxygen
Photosynthesis is important as it produces oxygen, which is essential for aerobic respiration and the survival of organisms. It also provides a source of organic molecules and energy for the food chain.
Word Equation for Photosynthesis
Carbon dioxide + Water + Light energy → Glucose + Oxygen
Balanced Chemical Symbol Equation for Photosynthesis
6CO2 + 6H2O + light energy → C6H12O6 + 6O2
Factors Affecting the Rate of Photosynthesis
Carbon Dioxide Concentration
Light Intensity
Temperature
Carbon Dioxide Concentration 
Increasing CO2 concentration generally increases the rate of photosynthesis until it reaches a saturation point
Light Intensity 
Higher light intensity usually increases the rate of photosynthesis until it reaches a maximum level
Temperature 
Optimal temperatures promote enzymatic activity and increase the rate of photosynthesis, but extreme temperatures can inhibit the process
Leaf Structure and Adaptations for Photosynthesis
Flat and thin structure with a large surface area to maximise light absorption
Contain chloroplasts for photosynthesis
Presence of stomata allows for gas exchange and water vapour loss
Mineral Ions Required for Plant Growth
Magnesium ions for chlorophyll synthesis
Nitrate ions for amino acid and protein formation
Phloem 
Vascular tissue responsible for transporting organic nutrients, such as sucrose and amino acids, throughout the plant