Chapter 10 Word Scramble

Embed Code - If you would like this activity on your web page, copy the script below and paste it into your web page.

Normal Size Small Size show me how

Question	Answer
photosynthesis	conversion of light energy to chemical energy that is stored in sugars or other organic compounds; occurs in plants, algae, and certain prokaryotes
autotrophic or heterotrophic nutrition	2 modes by which organisms acquire organic compounds it uses for energy and carbon skeletons
autotroph	self-feeder/producer; sustain themselves without eating anything derived from other living beings; produce organic molecules from CO2; ultimate source of organic compounds for nonautotrophs
photoautotrophs	organisms that use light as a source of energy to synthesize organic substances
heterotrophs	obtain organic material by secondary mode of nutrition; consumers
photosynthetic prokaryote that lived inside eukaryotic cell	original chloroplast believed to be:
half a million	_______ chloroplats per square inch of leaf surface
chlorophyll	green pigment located within chloroplasts
mesophyll	tissue in the interior of the leaf; where most chloroplasts are found
stomata	microscopic pores in which CO2 enters the leaf and oxygen exits
30-40	typical mesophyll cell has _________ chloroplasts
stroma	dense fluid within chloroplast enveloped by 2 membranes
thylakoids	elaborate system of interconnected membranous sacs which segregates stroma from thylakoid space
6 (CO2) + 12 (H2O) + light energy --> (C6H12O6) + 6 (O2) + 6 (H2O)	photosynthesis equation
H2O	O2 given off by plants is derived from ____ and not from CO2
Van Niel	challenged idea that photosynthesis splits CO2; photosynthetic organisms require hydrogen source but that source varies
endergonic	photosyntheis is (endergonic/exergonic)
light reactions and the Calvin cycle	2 stages of photosynthesis
light reactions	steps of photosynthesis that convert solar energy to chemical energy
NADP+	electron acceptor used in light reactions
photophosphorylation	process of generating ATP from ADP and phosphate by means of a proton-motive force generated across the thylakoid membrane during light reactions
carbon fixation	initial incorporation of carbon from CO2 into an organic compound by an autotrophic organism
Calvin cycle; light reactions	_______ makes sugar, but can only do so with help of NADPH and ATP produced by _________
thylakoids	site of light reactions
stroma	site of Calvin cycle
wavelength	distance between crests of electronmagnetic waves
electromagnetic spectrum	entire range of electromagnetic radiation
visible light	wavelength from about 380nm-750 nm in wavelength; can be detected as colors by human eye
photons	particles of light (though not tangiable) with a fixed quantity of energy which is inversely related to the wavelength of light
pigments	substances that absorb visible light
spectrophotometer	directs beam of light of different wavelengths through a solution of the pigment and measures the fraction of the light transmitted at each wavelength
absorption spectrum	graph plotting a pigment's light absorption versus wavelengths
chlorophyll a	photosynthetic pigment that participates directly in light reactions, which converts solar energy to chemical energy; blue green with functional group CH3
chlorophyll b	group of accessory pigments that transfer energy to chlorophyll a; olive green with functional group CHO
action spectrum	profiles relative effectiveness of different wavelengths of radiation in driving photosynthesis; illuminates chloroplasts with light of different colors and plots wavelength against photosynthetic rate
violet-blue and red light (note: green least effective)	best wavelength spectrums for photosynthesis (colors)
Engelmann	performed experiment which predated action spectrum; used bacteria to measure rates of photosynthesis in algae
carotenoids	accessory pigment; hydrocarbons that are various shades of yellow and orange which absorb violet and blue-green light; broaden spectrum that can drive photosynthesis
photoprotection	function of carotenoids; absorb and dissipate excessive light energy that would otherwise damage chlorophyll or interact with oxygen, forming reactive oxidative molecules that are dangerous to the cell
phytochemicals	compounds with antioxidant proprties
raises; ground; excited (note: electron cannot remain there long)	absorption of a photon _____ an electron from the _____ state to the ______ state
fluorescence	as excited electron fall back to the ground state, photons are given off, making an afterglow
photosystem	light-capturing unit located in thylakoid membrane consisting of a reaction-center complex surrounded by numerous light-harvesting complexes
reaction-center complex	complex of proteins associated w/ pair of chlorophyll a molecules and primary electron acceptor; located centrally in photosystem, triggers light reactions of photosynthesis
light-harvesting complex	complex of proteins associated with pigment molecules that capture light energy and transfer it to reaction-center pigments in a photosystem
primary electron acceptor	specialized molecule that shares the reaction-center complex with a pair of chlorophyll a molecules and that accepts an electron from them
photosystem II	one of the two light-capturing units in a chloroplast's thylakoid membrane; 2 molecules of p700 chlorophyll a at its reaction center
photosystem I	one of the two light-capturing units in a chloroplast's thylakoid membrane; 2 molecules of p680 chlorophyll a at its reaction center
light harvesting complexes	act as an antenna for the reaction-center complex
	solar-powered transfer of an electron from the reaction-center chlorophyll a pair ro the primary electron acceptor
P680 (note: refers to wavelength that most effectively is absorbed)	reaction center of chlorophyll a of photosystem II
P700 (note: refers to wavelength that most effectively is absorbed)	reaction center of chlorophyll a of photosystem I
linear electron flow	occurs during light reaction of photosynthesis; flow of electrons through photosystems and other molecular components built into the thylakoid membrane to synthesize ATP and NADPH
P680+	strongest biological oxidizing agent known
plastoquinone, cytochrome complex and plastocyanin	electron transport chain between PSII and PSII contains:
linear electron flow	light reactions use solar power to generate ATP and NADPH, which provide chemical energy and reducing power to the carbohydrate-synthesizing reactions of the Calvin cycle
cyclic electron flow	a route of electron flow during the light reactions of photosynthesis that involves only PSI and that produces ATP but not NADPH or O2
certain bacterial groups	examples of organisms that use cyclic electron flow
cyclic electron flow	photoprotective; protects cells from light-induced damage
organic molecules; water	reffering to chemiosmosis: in mitochondria, high-energy electrons dropped down the transport chain are extracted from ______; in chloroplasts, the source is ________
chemical energy from food molecules; light energy into chemical energy	mitochondria use chemiosmosis yo transfer ______ energy from food molecules to ATP; chloroplasts transform ________ into _______ in ATP
stroma	ATP is formed in the ______ in chloroplasts
citric acid cycle; Calvin cycle	while the ________ is catabolic, oxidizing glucose and using the energy to synthesize ATP; the _______ is anabolic, building carbohydrates from smaller molecules and consuming energy
CO2; sugar	carbon enters Calvin cycle in form of _____ and leaves in the form of _______
glyceraldehyde-3-phosphate (G3P)	three-carbon sugar produced by Calvin cycle, which must take place 3 times to synthesize sugar
carbon fixation	initial incorporation of CO2 into organic material
rubsico	most abundant protein in chloroplasts and most abundant protein on earth; catalyzes carbon fixation in Calvin cycle (attaches CO2 to RuBP)
transpiration	evaporative loss of water from leaves
C3 plants	a plant that uses the Calvin cycle for the initial steps that incorporate CO2 into organic material, forming a 3-carbon compound (3-phosphoglycerate) as the first stable intermediate
C4 plants	a plant in which the Calvin cycle is preceded by reactions that incorportate CO2 into a 4-carbon compound, the end product of which supplies CO2 for the Calvin cycle
C3 plants	rice, wheat, soybeans; as CO2 becomes scarce within air spaces of leaf, rubisco can bind O2 in place of CO2
photorespiration	a metabolic pathway that consumes oxygen and ATP, releases CO2 and decreases photosynthetic output; generally occurs on hot, dry, bright days, where stromata close and the oxygen concentration in the leaf exceeds that of CO2
50%	photorespiration can drain up to ____ of the carbon fixed by the Calvin cycle
sugar cane, corn, grass family	examples of C4 plants
bundle-sheath cells (note: Calvin cycle is confined to the chloroplasts of these cells)	in C4 plants, cells arranged into tightly packed sheaths around the veins of the leaf
mesophyll cells	in C4 plants, between bundle-sheaths and the leaf surface; more loosely arranged
PEP carboxylase	enzyme present in mesophyll cells; adds CO2 to PEP, forming thw 4-carbon product oxaloacetate; has much higher affinity for CO2 than rubsico and no affinity for O2
C4 plants	cycylic series of reactions involving PEP carboxylase and the regeneration of PEP can be thought of as a CO2-concentrating pump that is powered by ATP; minimizes photorespiration and enhances sugar production
crassulacean acid metabolism (CAM)	an adaptation for photosynthesis in arid conditions; plant takes up CO2 and incorporates it into a variety of organic acids at night; during the day, CO2 is released from organic acids for use in the Calvin cycle
succulents: cacti, pineapples...	examples of CAM plants
CAM plants	a plant that uses crassulacean acid metabolism; with stomata closed during the day and open at night
C4 and CAM	2 evolutionary solutions to the problem of maintaining photosynthesis with stomata partially or completely closed on hot, dry days

Created by: chloew101