Question.5547 - You have four test tubes containing purified biological macromolecules. The test tubes are not named but only labelled as numbers 1 to 4. You have been informed that one test tube contains a protein, one contains a lipid, one contains a carbohydrate, and one contains a nucleic acid. After performing some tests on the macromolecules, following are the data you have collected: i. Test tubes #2 and #4 contain nitrogen, but the other tubes do not. ii. The contents of test tube #3 are not soluble in water, but the contents of the other test tubes are soluble in water. iii. The contents of test tube #1 can be broken down into subunits that are all identical to each other. iv. The macromolecule in test tube #2 has a globular shape. Based on your knowledge of the properties of the macromolecules, identify the macromolecules present in the four test tubes numbered 1-4. Give the rationale for your inference. 2. You are studying the macromolecules present in a bacterial culture suspension. What are the types of nucleic acids that can be present in the given culture suspension and what do they have in common. Distinguish between them in terms of their chemical composition, nucleotides present in each, location in the cell, and function. 3. Consider your current diet and discuss the three macromolecules predominant in the diet. What are the primary sources of each of the biomolecules? How do their building blocks differ? How are the building blocks in a biomolecule connected to each other?
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Assignment Activity Unit 2University of The PeopleBIOL 1121 - Biology 1 for Health Studies MajorsAssignment Activity Unit 2According to my understandi...
Assignment xxxxxxxx Unit xxxxxxxxxx of xxx PeopleBIOL x Biology xxx Health xxxxxxx MajorsAssignment xxxxxxxx Unit xxxxxxxxx to xx understanding xxxx the xxxxxxxx obtained xxxx Berg xx al xxxxxxxx macromolecules xxxxxx the xxxxx of xxxxxxxxxx systems xx can xx distinguished xx their xxxxxxxxx compositions xxxxx with xxxxxxxxxx and xxxxxxxxxxxxxx architecture xxx of xxxx allowing xxxxxxxxx analytical xxxxxxxxxxxxxx in x laboratory xxxxxxx Identification xx macromolecules xx test xxxxxxxxxxxxxx to xx understanding x would xxx that xxxx tubes xxx holds xxxxxxxx while xxx do xxx here xxxxxxxx can xx defined xx a xxxxxxxxxxx of xxxxx acids xxx nucleotides xx only xxxxxxxx and xxxxxxx acids xxx reasonable xxx and xxxxx carbohydrates xxx most xxxxxxx lipids xxx expected xxx and xxxxxxx on xxxxxxxxx with xxxxxxxx conducted xx Alberts xx al xx state xxxx the xxxxxxxx conformation xx the xxxxxxxxxxxxx in xxxx tube xxxxxxxxxx a xxxxxxx since xxxxxxxxxxx arises xxxx sequence xxxxxxxxx folding xx polypeptide xxxxxx driven xx hydrophobic xxxxxxxx alongside xxxxxxxx bonding xxxx ionic xxxxxxxxxxxx and xxxxxxxxx bonds xxxx in xxxx yielding xxxxxxx tertiary xx quaternary xxxxxxxxxx typical xx enzymes xxx many xxxxxxxxx proteins xxxx according xx Watson xx al xxxxxxx acids xxxxx to xxxx extended xxxxxx helices xx even xxxxxxxxxxxxxxxxx complexes xxxxxxx of xxxxxxxx globular xxxxxxxx of xxx type xxxxxxx here xxx contents xx test xxxx are xxxxxxxxx in xxxxx wherein xxx are xxxxx soluble xxxxxxxxxx hydrophobicity xxx aqueous xxxxxxxxxxxx are xxxxxxxxxxxxxx of xxxxxx whose xxxxxx hydrocarbon xxxxxx or xxxx nonpolar xxxxxxx nuclei xxxxxxxxx them xxxx hydrogen xxxxxxx with xxxxx and xxxxxxx promoting xxxxxxxxxxx into xxxxxxxx or xxxxxxxx which xx also xxxxxxx in xxx research xxxxxxxxx by xxxx et xx According xx my xxxxxxxxxxxxx carbohydrates xxxxxxxx and xxxxxxx acids xxxxxxxxx carrying xxxxxxxx polar xxxx confer xxxxxxxxx shells xxx solubility xx physiological xxxxx strength xxx ph xx tube xxxxx be xxxxxxxxxx with x lipid xxxxxxxx Test xxxx being xxxxx soluble xxx yields xxxxxxxx that xxx all xxxxxxxxx wherein x homopolymeric xxxxxxxxxxxx with xxxxxxxxx identical xxxxxxxx typical xx several xxxxxxx and xxxxxxxxxx polysaccharides xxxx starch xxx glycogen xxxx can xx quantitively xxxxxxxxxx to x single xxxx of xxxxxxxxxxxxxx that xx also xxxxxxx in xxx research xx Berg xx al xxxxx proteins xxx nucleic xxxxx are xxxxxxxxxxxxxx assembled xxxx multiple xxxxxxxxxx distinct xxxxxxxx and xxxxx complete xxxxxxxxxxxx are xxxxxxxxx mixtures xxx identical xxxxxxxx so xxxx seems xx be xxx best xxxxxxxx as x carbohydrate xxxx as x protein xxxx as x lipid xxx tube xx a xxxxxxx acid xxxxxxx et xx Watson xx al xxxxxxx acids xx a xxxxxxxxx cultureAccording xx my xxxxxxxxxxxxx from xxxxxxx et xx within x bacterial xxxxxxxx suspension xxxx cells xxx extracellular xxxxxxxx together xxxxxxxxxx both xxxxxxxxxxxxxxxx acid xxxxxxx it xxxxxx typically xxxxxxxx double xxxxxxxx chromosome xx the xxxxxxxx region xxx as xxxxxxx plasmids xxx also xxxxxxxxxxx acid xxxxx is xxxxxxxxxxx by xxxxxxxxx RNA xxxx ribosomal xxx rRNA xxxxxxxx RNA xxxx and xxxxxxx smaller xxxxxxxxxx RNAs xxx both xxx linear xxxxxxxx if xxxxxxxxxxx interlinked xxxxxxx phosphodiester xxxxx with xxxxx nucleotide xxxxxxxxxx a xxxxxxx sugar x phosphate xxxxx and x nitrogenous xxxx conferring x polyanionic xxxxxxxxx at xxxxxxxxxxxxx pH xxxxxx et xx In xxxxx of xxxxxxxxx they xxx different xx sugar xxxxxxxxxxx base xxxxxxx localization xxx also xxxxxxxxxx roles xxxxxxx DNA xxxxx to xxxxxxx deoxyribose xxx the xxxxx adenine xxxx guanine xxxxxxxx and xxxxxxx and xxx canonical xxxxx double xxxxx functions xx a xxxxxx repository xx genetic xxxxxxxxxxx and x template xxx replication xxx transcription xxxxxx Cox xxxxxx et xx On xxx contrary xxx tends xx contain xxxxxx with xxx bases xx adenine xxxxxxx cytosine xxx uracil xxxx is xxxxxxxxxxxxx singular xxxxxxxx with xxxxxxxxx intramolecular xxxx pairing xxx participating xxxxxxxx in xxxx expression xxxx conveys xxxxxx information xxxx DNA xx ribosomes xxx rRNA xxxxxxx catalytic xxx structural xxxx of xxx ribosome xxx tRNA xxxxxxxx amino xxxx delivery xxx codon xxxxxxxxx recognition xxx smaller xxxx modulating xxxx expression xxx stress xxxxxxxxx Madigan xx al xxxxxx bacteria xxx is xxxxxxxxx mainly xx the xxxxxxxx and xxxxxxxx within xxx cytoplasm xxxxxxx RNA xx concentrated xx the xxxxxxxxx and xx ribosomes xxxxxxxxxx the xxxxxxxx of xxxxxxxxxxxxx and xxxxxxxxxxx in xxxxxxxxxxx Madigan xx al xxxxxxxxxxx dietary xxxxxxxxxxxxxx and xxxxx building xxxxxxxxxxxx a xxxxxxx human xxxx relevant xx health xxx clinical xxxxxxxxxxxx the xxxxxxxxxxx macromolecular xxxxxxx are xxxxxxxxxxxxx proteins xxx lipids xxxx nucleic xxxxx present xxxx in xxxxxxxxxx minor xxxxxxx Wherein xxxxxxxxx to xxx insights xxxxx from xxxxxx and xxx carbohydrates xxx derived xxxx cereals xxxxxx observed xx rice xxxx traces xx it xx fruits xxx sucrose xxxxxxxxxx foods xxxx provide xxxxxxx metabolizable xxxxxx and xxxxxxxxxx for xxxxxxxx synthesis xxxxxxx the xxxxxxxxx units xxxxxxx in xxxx are xxxxxxxxxxxxxxx like xxxxxxx or xxxxxxxx and xxxx galactose xxxx are xxxxxxxxxxx through xxxxxxxx glycosidic xxxxx for xxxxxxxx and xxxxxxxx in xxxxxx and xxxxxxxx or xxxxxxxx in xxxxxxxxx generating xxxxxx and xxxxxxxxxxxxxxx with xxxxxxxx digestibility xxx physiological xxxxxxx However xxxxxxx proteins xxxxxxxxx predominantly xxxx red xxxx even xxxx dairy xxxxxxxx some xxxxx in xxxxxxx and xxxxxx serving xx sources xx essential xxxxx acids xxx nitrogen xxx biosynthesis xx body xxxxxxxx and xxxxxxxxxxx metabolites xxx their xxxxxxxx blocks xxx amino xxxxx sharing x common xxxxxxxx but xxxxxxxxx in xxxx chain xxxxxxxxx like xxxxx or xxxxxxxxx acidic xx basic xxxx dictates xxxxxxx and xxxxxxxx of xxx resultant xxxxxxxxxxx Nelson xxx According xx Alberts xx al xxxxx acids xxx covalently xxxxxx by xxxxxxx bonds xxxxxx by xxxxxxxxxxxx reactions xxxxxxx carboxyl xxx amino xxxxxx yielding x linear xxxxxxxxxxx chains xxxxxxx subsequently xxxxxxx into xxxxxxxxx tertiary xxx sometimes xxxx quaternary xxxxxxxxxx stabilized xx noncovalent xxxxxxxxxxxx and xxxxxxxxxx covalent xxxxxxxxxx like xxxxxxxxx bridges xxxxxx lipids xx the xxxx are xxxxxxxx majorly xxxx plant xxxxx oils xxxxxxxxx those xxxx seeds xx nuts xx even xxxxxx based xxxxxxxx like xxx or xxxxx or xxxx marine xxxx - xxxxxxxxx energy xxxxx fuel xxxxxxxxx for xxxxx acids xxx components xxx membrane xxxxxxxxx lipid xxxxxxxxx Madigan xx al xxxxxxx dietary xxxxxx are xxxxxxxxxxxxxxxx that xxxxxxxx glycerol xxxxxxxx esterified xxxx three xxxxx acids xxxxxxx in xxxxx kinda xxxxxxx and xxxxxx of xxxxxxxxxx these xxxxx bonds xxxxx through xxxxxxxxxxxx reactions xxxxxxx hydroxyl xxxxxx of xxxxxxxx and xxxxxxxx groups xx fatty xxxxx Berg xx al xxxxxxx on xxxxxxxxx with xxxxxx and xxx Phospholipids xxx cholesterol xxxxxx that xx also xxxxxxx in xxx diet xxx assembled xxxxxxx analogous xxxxx linkages xx generating xxxxxxxxxxx molecules xxxxxxx of xxxxxxx bilayers xxx lipoprotein xxxxxxxxx So xxxxx on xx understanding x would xxxx to xxxxx that xxxxxxxxxxxxx proteins xxx even xxxxxx differ xxxxxxxxxxxxx in xxxxxxx chemistry xxxx those xxxxxx amino xxxxx fatty xxxxx glycerol xxx linkage xxxxx glycosidic xxxxxxx and xxxxx bonds xxxxxxxxxxxx that xxxxxxxxx their xxxxxxxx roles xx metabolism xxxxxxxxxx organization xxx health xxxxxxxxxxxxxxxxx B xxxxxxx A xxxxx J xxxxxx D xxxx M xxxxxxx K xxxxxx P xxxxxxxxx biology xx the xxxx th xx Garland xxxxxxx Berg x M xxxxxxxx J x Gatto x J xxxxxx s xxxxxxxxxxxx th xx W x Freeman xxxxxxx M x Bender x S xxxxxxx D x Sattley x M xxxxx D x Brock xxxxxxx of xxxxxxxxxxxxxx th xx Pearson xxxxxx D x Cox x M xxxxxxxxx principles xx biochemistry xx ed x H xxxxxxx Watson x D xxxxx T x Bell x P xxxx A xxxxxx M xxxxxx R xxxxxxxxx biology xx the xxxx th xx PearsonPaying someone to do your biology assignment has become a practical solution for students managing 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