Категории: Все - osmosis - diffusion - biodiversity - evolution

по renita seochand 2 лет назад

105

evolution

The text delves into several biological concepts, primarily focusing on the mechanisms by which plants and cells manage water and other molecules. It outlines the cohesion-tension theory, which explains how water is pulled through a plant'

evolution

evolution

kingdoms

animalia

Cnidaria (jellyfish, anemone, corals)

Chordata (mammals, fish, reptiles, birds)

Porifera (freshwater sponges, sea sponges)

Mollusca (octopuses, squid, cuttlefish)

organisms are multicellular, eukaryotic and without chlorophyll.

cells have membrane-enclosed organelles and a nucleus

multicellular organisms

plantea

mosses, liverworts, ferns, trees, shrubs, herbs, and corn

They are eukaryotic, multicellular and autotrophic organisms

The plant cell contains a rigid cell wall.

fungi wikipedia

mushrooms

molds

yeast

feeding on dead or decaying material

Fungi exhibit the phenomenon of alternation of generation

they are eukaryotic, non-vascular, non-motile and heterotrophic organisms

Protista
large complex grouping of mostly unicellular eukaryotic organisms

amoebae, red algae, dinoflagellates

sexual and asexual reproduction

nuclear membranes around their DNA

Archaeabacteria
oldest living organisms on earth

classified as bacteria

methanogens

thermophiles

the presence of characteristic tRNAs and ribosomal RNAs

rigid cell wall provides shape

cell membranes of the Archaebacteria are composed of lipids

ability to live in extremely hot or chemically aggressive environments

Eubacteria
found as individual cells or in the large colonies
examples

Chlamydia Trachomatis

Escherichia Coli

some have cilia and flagella for movement

shaped like

tight coils, grape-like clusters, filaments and thin biofilms

prokaryotic microscopic cells

unicellular

Internal Systems

Cystic Fibrosis
effect on the The Circulatory system

Higher BP can be the result of oxidative stress

stress on the arterial wall

increased in parallel with myocardial work

impaired blood oxygenation

higher heart rates and diastolic blood pressure

effect on the organs of the Digestive system
on the organs of the respiratory system

EG

causes

Inflammation and infection of the upper airways and sinuses

normal thin secretions in the lungs to become very thick

ideal breeding ground for bacteria and fungi

lung infections , pneumonia Inflammation of the lungs often caused by a bacterial or viral infection. or bronchitis

pneumonia Inflammation of the lungs often

caused by a bacterial or viral infection., or bronchitis

effect your pancreas,

because the thick mucus produced blocks ducts in your pancreas

This stops proteins that break down your food

Malnutrition and vitamin deficiencies

because

nability to absorb nutrients

The Respiratory system
the environment and the respiratory system

factors

parasites

population density

pollutants

food

temperature

why

brings air from the environment in contact with the delicate cells in our lungs

to provide oxygen and to expel carbon dioxide

Cells Lining the Respiratory Tract

Breathing in air pollutants can irritate your airways

Exposure to air pollution

can lead to

asthma

stroke

heart attacks

lung cancer

For example, exposure to traffic pollutants

consist of the

lungs

Helps oxygen breathed air to enter the red cells in the blood

bronchi

trachea

larynx

pharynx

Mouth

nose

aids the body in the exchange of gases

between the

air and blood

between the blood and the body’s cells

The Digestive system
brain

hormones

multiply effect on the body

hormones regulate the enzymes

hormone serotonin

Accessory digestive organs

pancreas

liver

gallbladder

squeezes bile into small intestine

stores bile

thick liquid

Rectum

Elimination

Large Intestine

Absorption

small Intestine

enzyme secreted

Bile duct

proteases

Lipase

digest fats and lipids

pancreatic juice

amylase

pancreatic lipase

Stomach

Digestion

Esophagus

Pharynx

Salivary glands

Ingestion

The Circulatory system
Cardiac Cycle-

Ventricular diastole

Ventricular systole

Atrial systole-

Atrial diastole

atria and ventricles contract

parts

blood

Plasma

carry nutrients, hormones, and proteins

White blood cells

circulate in the blood and respond to damage or illness

important for protecting your body from infection

Red blood cells-

transport oxygen to your body's tissues

they carbon dioxide to your lungs for exhalation

Transports oxygen-rich blood from the heart to the lungs.

arteries

blood vessels that carry blood away from the heart

biodiversity

plants
cell transportation

osmosis

the movement of molecules across a cell membrane .

from lower concentration to a region of higher concentration

against the concentration gradient

water moves in and out a cell

moving from high to low concentration

water molecules

diffusion across a cell membrane

water concentration different from solute concentration

endocytosis

microbiology Endocytosis definition, types and Steps

phagocytosis

phagosome

ingestion of particles larger than 0.5 μm

into a plasma membrane derived vesicle

nutrition in unicellular organisms

cell engulfs

particles into its cytoplasm

other cells

macromolecules

pinocytosis

substances are brought inside a cell

molecules dissolved to liquid

necessary for cell

cellular fluid and dissolved substances

Properties of cell membrane wikipedia

cohesion

Dixon and Jolly in 1894

Water molecules have a strong mutual force of attraction

called cohesive forcedue

cohesion-tension theory

3.then pulled up the plant stem

2.water molecules in xylem under tension

1. water is pulled through a leaf

properties

5. fluid-like structure

4. held together by non-covalent interactions

3. made up of

lipids

2. consists of a phospholipid bilayer.

1. thin enclosures that form closed boundaries.

details

reactions

response to differing concentrations

of solutes on the two sides of the membrane

cell has equal concentration of water

isotonic

same concentration

special diffusion

diffusion transports material

across membranes and within cells

Osmosis is a special case of diffusion.

vascular tissue

comprised of the xylem and the phloem

phloem

causing water to diffuse

Phleom loading

loading carbon into the phloem

for transport to different 'sinks'

sink

other processes

storage

growth

metabolism

found in external root cylinders

stores

proteins

water

carbohydrates

jobs

distribution of organic nutrients

transportation

evidence

Biogeography
patterns of biological diversity

their underlying enviorment

historical causses

splitting of pangea

forming the modern continents

the Atlantic

Indian oceans

different fossils

similar species on different continents

similar anatomy

different species

different contentes

location of fossils

fosil record

preserved remains

types of fossils

Preserved remains

Trace fossils

Casts fossils

Pseudofossils

Amber

traces of an organism

distribution of species
compares locations

current location

past locations

past geography

DNA
Anatomy

similar ancestry

Comparative anatomy

adaptive changes

differences in anatomy

similarities in anatomy

Analogous Structures

common ancestral feature

different anatomy

similar function

Homologous Structures

similar physical features and common ancestor

different function

pentadactyl limbs

similar structure

similar developmental patterns

tendons

number of bones

ligaments

Embryology

prenatal development of gametes

Fertilization of the female gamete

blastocyst implanation

fetal devleopment

emmbryo development

blastocyst development

egg and the male gamete spermatozoa

womb stages of organism’s development

sperm meets an egg

fertilized egg

formation of zygote

endosymbiotic theory

How eukaryotic cells evolved from a prokaryotic cell engulfing another prokaryotic cell
mitochondria are descended from specialized bacteria
Mitochondria and chloroplasts
have their own DNA which is circular, not linear
same size as prokaryotic cells and divide by binary fission.
some of the organelles in eukaryotic cells were once prokaryotic microbes

Vaccines and viruses

types of vaccines
Conjugate vaccines

vaccines fight a type of bacteria that has antigens.

Non-live vaccines

also fight viruses and bacteria

Subunit vaccines

contain only the essential antigens

Toxoid vaccines

prevent diseases caused by bacteria

virus structure
Grade 11 Biology study guide

composed of

Capsid: a protein coat that gives a virus its shape. It makes up 95% of the virus.

Nucleic acid: DNA or RNA

B memory cells
Memory B cells circulate in the blood stream
remembers antigen exposed

remembers antibody that worked on it

B-cells
type of white blood cell of the lymphocyte subtype

function in the humoral immunity

produce antibodies
Hyper T cell
remembers antigen
Cytotoxic T -cell
host defense against viral infection

through antigens

vaccines trigger
Macrophages

white blood cells that swallow up and digest germs

exposes immune system to virus

allows body to fight it off

cell mediated response
humoral response

Genetics

factors affecting Variation
meiosis

cell division in sexually reproducing organisms

reduces the number of chromosomes in gametes

steps

telophase II

anaphase II

metaphase II

prophase II

telophase I

anaphase I

prophase I

Crossing over occurs between

metaphase I

two identical halves of a chromosome

two “sister” chromatids

joined at the

helps divide a cells DNA during division

centromere

spindle fibers

divides the genetic material in a cell

equally divides the chromosomes

from a parental cell

into two daughter cells

paired chromatids

helps in mitosis

constricted region of a chromosome

Atypical Meiosis

mutations

change in alleles

could lead to new species

gene pool

types

translocation

transfer of molecule to another

point

DNA transfered from molecule

inversion

a segment bas replaced

Deletion

segments of DNA removed

Mistakes made when copying DNA

change in DNA in future

occurs during cell division

happens on a cellular level

non-disjunction

causes abnormal number chromosomes

chromosomal errors

Classed of Ploidy

Classes of Aneuploidy

polyploidy

tetraploid

triploid

polysomy

more than the normal number of specific chromosome

tetrasomy

trisomy

monosomy

only one copy of a chromosome

eg. turners syndrome

nullisomy

both homologues are missing

Single-gene disorders

mutation affects one gene

Sickle cell anemia

types of genetic disorders

Turner syndrome

Kleinfelters

Down syndrome

segregate at anaphase

both chromosomes pass to the same daughter cell

pair of homologous chromosomes failed to separate

Alleles
control the characteristics
Humans have 22 pairs

one pair of sex chromosomes

XX or XY

Phenotype

individual's observable traits

determined by

environmental factors

genomic makeup (genotype)

DIPLOID organisms

diploid cells include blood cells, skin cells and muscle cells

organism with 1 set of homologous chromosome

set of genes

Recessive gene

Dominant genes

overriding the effect of a different variant

of the same gene on the other copy of the chromosome

Crosses
monohybrid cross

the hybrid of two individuals

homozygous genotypes

The presence of two identical alleles at a particular gene

which result in the opposite phenotype for a certain genetic trait.

dihybrid cross

hybrid organism is one that is heterozygous

two different alleles of a particular gene or gene

carries two different alleles

two organisms that are identically hybrid for two traits

Mendel's 2 laws
2. independent assortment of alleles of different genes

from each other during the formation of gamete

The Law of Independent Assortment

1.two copies of alleles of a particular gene

into the gametes.

The Law of Segregation

each inherited trait is defined by a gene pair

Mechanisms of evolution

non-random mating
assorative mating

selective mating

affected by phenotypes

individuals similar to themselves

particular physical characteristics

desirable traits in mates

traits

females pick their mate

based off mating ritual

behavioural

does not change allele frequencies
inbreeding

lead to harmful recessive alleles

gene flow
new traits in a population

slows rate of speciation

speciation

how a new kind of plant or animal species is created

types of speciation

sympatric

occurs in same enviorment

reproductive barrier

isolation mechanisms

preventing reproduction

Pre Zygotic

isolation types

gametic

mechanical

behavioral

habitat

temporal

no mating

Post Zygotic

hybrid break down

hybrid starilility

hybrid inviability

mating occurs

offspring doesn't survive

allopatric

happens in different agrees

different enviornment

different habitat

geological barrier

occurs when barrier formed

succsessive genetic traits over generatin

preventing original reproduction of species

leading to natural selection

characteristics

behavoural

chromosonal

physical

gene transfer from one population to another
migration

allelic change due to movement

different allele frequencies

reproduce in their new populations

Types

dragonflyisuesinevolution

females look at

competition between males

through visual display

through combat

the evolution of certain conspicuous physical traits

of one biological sex choose mates of the other sex to mate

c-12 learning

wide range of

some produce

more offspring

genotype

phenotype

Artificial selection

humans of desirable traits in plants and animals

genetic drift
factors causing genetic drift

best adapt to change

impacts bigger populations

opposite natural selection

# offspring in a generation

founder effect

reduction in genetic variation

small subset of a large population

change in genes

allele frequency

separated from a larger population

new isolated population

new geographic location

the low genetic variation

bottle neck effect

change gene distribution

caused by

habitat destruction

hunting of a species

environmental disaster

reduction in population

fluctuation in alleles from generation to generation

History of evolutionary theory

current theory
charles darwin

Theory of natural selection – Darwin

more offspring is made

fittest offspring survive

variation in a population

mutations lead to variations

distributed meiosis/sexual reproduction

different traits in population

proposed mechanism

natural selection

adaptation

random variations

evolution takes natural selection

types of evolution
macroevolution

encompasses the grandest trends

transformations in evolution

creation of a new species

example

birds from dinosoaurs

longer scaled/time line

microevolution

short periods of time

evolution takes place over generations

changes in the frequency

of a gene in a population

Theories
pre darwin

Wallace's Evidence

phenomenon called natural selection

eg. the golden birdwing butterfly

evolving

Animals evolve

by adapting to their environment

selective pressure

certain phenotypes have survival benefit or disadvantage

competition for resources

competition for food

sexual selection

they changed

fittest individuals survived and reproduced

Linnean Classification System
major groupings

class

genus

species

family

phylum

order

kingdom

aristotle in his classification of animals

fishes

worms

reptiles

birds

incests

animals

attempted natural classification
taxonomy = classification

groups of organisms

based on characteristics

hierarchy of groupings