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Understanding Biology Second Edition Kenneth A. Mason University of Iowa Tod Duncan University of Colorado Denver George B. Johnson Professor Emeritus of Biology Washington University Jonathan B. Losos Harvard University Susan R. Singer Carleton College mas92413_fm_i-xxiv.indd 1 28/11/16 12:26 pm UNDERSTANDING BIOLOGY, SECOND EDITION Published by McGraw-Hill Education, 2 Penn Plaza, New York, NY 10121. Copyright © 2018 by McGraw-Hill Education. All rights reserved. Printed in the United States of America. Previous edition © 2015. No part of this publication may be reproduced or distributed in any form or by any means, or stored in a database or retrieval system, without the prior written consent of McGraw-Hill Education, including, but not limited to, in any network or other electronic storage or transmission, or broadcast for distance learning. Some ancillaries, including electronic and print components, may not be available to customers outside the United States. This book is printed on acid-free paper. 1 2 3 4 5 6 7 8 9 LWI 21 20 19 18 17 ISBN 978-1-259-59241-6 MHID 1-259-59241-3 Chief Product Officer, SVP Products & Markets: G. Scott Virkler Vice President, General Manager, Products & Markets: Marty Lange Vice President, Content Design & Delivery: Betsy Whalen Managing Director: Thomas Timp Brand Manager: Justin K. Wyatt, PhD Director, Product Development: Rose Koos Product Developer: Elizabeth Sievers Marketing Manager: Patrick E. Reidy Digital Product Developer: Michael Koot, PhD Digital Product Analyst: Christine Carlson Director, Content Design & Delivery: Linda Avenarius Program Manager: Angela R. FitzPatrick Content Project Managers: April R. Southwood/Jessica Portz/Christina Nelson, Sandra Schnee Buyer: Jennifer Pickel Design: Matt Backhaus Content Licensing Specialists: Lori Hancock/Lorraine Buczek/DeAnna Dausener Cover Image: ©Eric and David Hosking/Getty Images Compositor: MPS Limited Printer: LSC Communications All credits appearing on page or at the end of the book are considered to be an extension of the copyright page. Library of Congress Cataloging-in-Publication Data Names: Mason, Kenneth A., author. Title: Understanding biology / Kenneth A. Mason, University of Iowa [and four others]. Description: New York, NY : McGraw-Hill Education, [2018] | Includes index. Identifiers: LCCN 2016048200 | ISBN 9781259592416 (alk. paper) Subjects: LCSH: Biology. Classification: LCC QH308.2 .M387 2018 | DDC 570--dc23 LC record available at https://lccn.loc.gov/2016048200 The Internet addresses listed in the text were accurate at the time of publication. The inclusion of a website does not indicate an endorsement by the authors or McGraw-Hill Education, and McGraw-Hill Education does not guarantee the accuracy of the information presented at these sites. mheducation.com/highered mas92413_fm_i-xxiv.indd 2 28/11/16 12:26 pm Brief Contents About the Authors iv Part V The Diversity of Life 477 Changes to This Edition vi 22 Systematics and Phylogeny 477 A Learning Path to Understanding Biology viii 23 Prokaryotes and Viruses 497 24 Protists 522 Acknowledgments xvii 25 Fungi 548 Contents xviii 26 Plants 570 27 Animal Diversity 594 Part I The Molecular Basis of Life 1 28 Vertebrates 625 1 The Science of Biology 1 Part VI Plant Form and Function 656 2 The Nature of Molecules and the Properties of Water 21 29 Plant Form 656 3 The Chemical Building Blocks of Life 40 30 Flowering Plant Reproduction 681 Part II Biology of the Cell 66 31 The Living Plant 706 4 Cell Structure 66 Part VII Animal Form and Function 736 5 Membranes 94 6 Energy and Metabolism 115 32 The Animal Body and How It Moves 736 7 How Cells Harvest Energy 131 33 The Nervous System 761 34 Fueling the Body’s Metabolism 789 8 Photosynthesis 156 35 Maintaining Homeostasis 822 9 Cell Communication 179 36 Reproduction and Development 860 10 How Cells Divide 198 Part VIII Ecology and Behavior 893 Part III Genetic and Molecular Biology 222 37 Behavioral Biology 893 11 Sexual Reproduction and Meiosis 222 38 Ecology of Individuals and Populations 918 12 Patterns of Inheritance 238 39 Community Ecology 940 13 The Chromosomal Basis of Inheritance 259 40 The Living World 974 14 DNA: The Genetic Material 280 15 Genes and How They Work 304 16 Control of Gene Expression 332 Glossary G1 17 Biotechnology 358 Appendix A: Answer Key A-1 18 Genomics 383 Index I-1 Part IV Evolution 409 19 Genes Within Populations 409 20 The Evidence for Evolution 431 21 The Origin of Species 454 iii mas92413_fm_i-xxiv.indd 3 28/11/16 12:26 pm About the Authors Kenneth Mason maintains an association with the University of Iowa, Department of Biology after having served as a faculty member for eight years. His academic positions, as a teacher and researcher, include the faculty of the University of Kansas, where he designed and established the genetics lab, and taught and published on the genetics of pigmentation in amphibians. At Purdue University, he successfully developed and grew large introductory biology courses and collaborated with other faculty in an innovative biology, chemistry, and physics course supported by the National Science Foundation. At the University of Iowa, where his wife served as president of the university, he taught introductory biology and human genetics. His honor society memberships include Phi Sigma, Alpha Lambda Delta, and, © Kenneth Mason by vote of Purdue pharmacy students, Phi Eta Sigma Freshman Honors Society. Tod Duncan is a Clinical Assistant Professor at the University of Colorado Denver. He currently teaches first semester general biology and coordinates first and second semester general biology laboratories. Previously, he taught general microbiology, virology, the biology of cancer, medical microbiology, and cell biology. A bachelor's degree in cell biology with an emphasis on plant molecular and cellular biology from the University of East Anglia in England led to doctoral studies in cell cycle control, and postdoctoral research on the molecular and biochemical mechanisms of DNA alkylation damage © Lesley Howard in vitro and in Drosophila melanogaster. Currently, he is interested in factors affecting retention and success of incoming first-year students in diverse demographics. He lives in Boulder, Colorado, with his two Great Danes, Eddie and Henry. George Johnson is professor emeritus of biology at Washington University in Saint Louis, where he taught genetics to biology majors and freshman biology to nonmajors for 35 years. Also professor of genetics at Washington University School of Medicine, his research in population genetics focused on genetic variation in alpine butterflies. He has published more than 40 scientific articles and authored six college texts, including Biology, The Living World, and Essentials of the Living World, as well as the widely used high school biology textbook Holt Biology. In the 30 years he has been authoring biology texts, over 3 million students have been taught from textbooks he has written. © George Johnson Jonathan Losos is the Monique and Philip Lehner Professor for the Study of Latin America in the Department of Organismic and Evolutionary Biology and curator of herpetology at the Museum of Comparative Zoology at Harvard University. Losos’s research has focused on studying patterns of adaptive radiation and evolutionary diversification in lizards. He is the recipient of several awards, including the prestigious Theodosius Dobzhanksy and David Starr Jordan Prizes, the Edward Osborne Wilson Naturalist Award, and the Daniel Giraud Elliot Medal from the National © Jonathan Losos Academy of Sciences. Losos has published more than 100 scientific articles. Susan Rundell Singer is the Laurence McKinley Gould Professor of Natural Sciences in the Department of Biology at Carleton College in Northfield, Minnesota, where she has taught introductory biology, plant biology, genetics, and plant development for 26 years. Her research focuses on the development and evolution of flowering plants and genomics learning. Singer has authored numerous scientific publications on plant development and co- authored education reports, including Vision and Change and “America’s Lab Report.” She received the American Society of Plant Biology’s Excellence in Teaching Award and the Botanical Society’s Bessey Award, is an AAAS fellow, served on the National Academies Board on Science Education, and chaired several National Research © Susan Singer Council study committees, including the committee that produced Discipline-Based Education Research. Ian Quitadamo Lead Digital Author is a Professor with a dual appointment in Biological Sciences and Science Education at Central Washington University in Ellensburg, Washington. He teaches introductory and majors biology courses and cell biology, genetics, and biotechnology, as well as science teaching methods courses for future science teachers and interdisciplinary content courses in alternative energy and sustainability. Dr. Quitadamo was educated at Washington State University and holds a BA in biology, Masters degree in genetics and cell biology, and an interdisciplinary Ph.D. in science, education, and technology. Previously a researcher of tumor angiogenesis, he now investigates the behavioral and neurocognitive basis of critical thinking and has published numerous studies of factors © Ian J. Quitadamo, Ph.D. that improve student critical thinking performance. He has led multiple initiatives in critical thinking and assessment, and is active nationally in helping transform university faculty practice. iv mas92413_fm_i-xxiv.indd 4 28/11/16 12:26 pm Note to the Student More than most subjects, biology is at its core a set of ideas and if you can master these basic ideas, you have a framework to fit in the increasingly detailed information that will continue to accumulate. This book has been designed to help you do just that. We have focused Understanding Biology, second edition, right where you need help—on the core ideas. In keeping with that goal, the book provides a clear pathway through the forest of facts that can bog down your understanding of biology. Each chapter begins with a Learning Path that introduces the major concepts for the chapter. Then within each section these larger concepts are broken down into their supporting, more specific concepts. Each of these comes with a learning objective that tells you what you should be able to do upon completing the section, and each section has a brief review with a question to help you think about the concepts. The key to this organization, and more important, to the content, is that you now have a book that presents the important concepts of biology and supporting detail, but with a greater focus on understanding. The organization also lends itself well to the digital tools that accompany the text. Understanding Biology, second edition, is part of a family of learning tools, both print and digital, that are designed to help you understand biology and be successful in your studies. Note to the Professor Everyone teaching biology has been affected by the wave of change sweeping over college instruction these days. Digital technologies have set off a revolution in how we teach, from online course management to interactive and adaptive assessment; almost everything we do as instructors has changed. Yet the textbook itself has not changed significantly. In fact, over the last 25 years we have seen the evolution of the encyclopedic text. These tomes of biology were wonderful to catalog information but not necessarily to teach or learn biology in the ever-changing classroom. This book represents an attempt to rethink how to present biology to the modern student. Rather than remove context and supporting information, we have simply removed material that is not taught in most classes. This allows us to focus on the concepts that are actually taught. In deciding what to include and what to eliminate, we didn’t rely solely on our own experiences. Rather, we asked instructors across the country what chapters in a majors biology text they taught, and what chapters they did not. Through a combination of an analysis of course syllabi, custom orders, surveys, and reviews of preliminary versions of the text, you, the professors, have helped us identify course topics. It may come as no surprise that most majors biology courses cover much of the material in the first half of the book: the basic concepts of cell biology, genetics, and evolution. Professors who teach the second half of the course pick and choose from chapters in the last half of the book. In this text we have also made strategic decisions on content, retaining or expanding treatment in these basic areas to provide the context to facilitate student learning. The rest of the text we have shortened. Whole chapters from a traditional text have not been eliminated, but the treatments have become more focused on the key concepts, with unnecessary detailed reduced. We also focused on helping students develop critical-thinking skills that will serve them well into the future. Understanding Biology, second edition, provides two features that help develop critical thinking: end-of-chapter Inquiry & Analysis and end-of-part Connecting the Concepts. While texts may present graphs and descriptions of experiments, they rarely give students a taste of what it is like to “think” like a scientist. The Inquiry & Analysis feature contains full-page scientific investigation based on real experiments carried out by laboratory scientists and published in major journals. They walk the students through the scientific process, from formulating hypotheses and experimentation through data analysis and forming conclusions. Connecting the Concepts is an end-of-part feature that help students see how topics are related under unifying concepts. Seemingly unrelated topics are unified by the same fundamental concepts that provide a framework to build knowledge upon knowledge. We wrote this book because we have come to feel that while today’s biology textbooks reflect new content, they do little to take advantage of new instructional opportunities. What sort of text would best serve a student taking an online course? A course where classroom time is devoted to discussion rather than lecture? A course delivered by computer, with interactive learning its mode of delivery? It is to address these diverse course offerings that we have undertaken this new majors text. While Understanding Biology, second edition, will serve an instructor very well in a traditional lecture course supporting the lectures with detailed explanations, its aim is broader: to provide a tool that will support new teaching methods and online delivery methods as well. about the authors v mas92413_fm_i-xxiv.indd 5 28/11/16 12:26 pm Changes to This Edition The goal of the first edition of this book was to produce a text Chapter 8 Material was rewritten to clarify the nature of energy containing the topics actually covered in the majority of introductory transactions during photosynthesis. Editing improves biology classes at the depth that these topics are being taught. The clarity and readability of presentation. second aim was to make the text as approachable to the student as Chapter 9 The material on the nature of receptors was rewritten possible. In this revision, we have not changed the material covered, for clarity and accuracy. Material on RTKs and GPCRs as our research for the first edition already indicated what is being was rewritten for clarity and accuracy. taught. Instead, we have tried to improve the readability for the Chapter 10 The material on chromosome compaction was rewritten student. One particular focus was cleaning up loose use of language for clarity and accuracy. The section on cancer was in discussing chemical topics, especially those related to energy completely rewritten to introduce new material on and chemical bonds. We have attempted to make the treatment of genomics of cancer and provide a more modern view. chemical and physical concepts as accurate as possible, as well as presented for maximum readability for the student. Part III Genetics and Molecular Biology Chapter 11 The material on the synaptonemal complex Part I The Molecular Basis of Life throughout the chapter was updated and rewritten for clarity. This includes a new drawing of the Chapter 1 The chapter was updated to clarify the relationship synaptonemal complex, replacing an EM image that between modern domains and traditional kingdoms. was more difficult to see. The nature of monopolar The section on important concepts to biology was attachment to the spindle was clarified. rewritten to reflect new use of these concepts in the Chapter 12 The figure showing the relationship of genotype Connecting the Concepts feature presented at the to phenotype was moved from chapter 15 to this end of every Part. Other edits were made for clarity chapter, where it provides a much better context for and readability for students. students. The section on extensions to Mendel was Chapter 2 Minor edits were made for clarity. Most edits were rewritten for clarity. related to the nature of chemical bonds, and to the Chapter 13 The section on linkage was rewritten to improve role of water in living systems. clarity of this difficult concept. The material on genetic Chapter 3 Edits were made to clarify the nature of energy in mapping was also rewritten to improve readability living systems, including the role of ATP. The text for students. Information about SNPs in humans was was edited to clarify the behavior of lipids in water. updated, as was the material on source of changes in The figure on the formation of peptide bonds was chromosome number. The section on human genetic modified to show amino acids in ionized form as they diseases and prenatal screening was rewritten and would be under physiological conditions. All changes updated. The material on genomic imprinting was increase accuracy and readability for students. updated to reflect new information. Chapter 14 The section on DNA structure was rewritten to clarify Part II Biology of the Cell the organic chemistry terminology used to describe Chapter 4 The discussion of the structure and role of proteasome nucleotides. The description of the Watson–Crick were updated, including evolutionary implications. structure of DNA was edited for clarity. The description The section on cell junctions was edited to reduce of how telomerase functions was updated and rewritten confusing language and increase consistency. to clarify action of the enzyme. The discussion of E. coli Chapter 5 The material on transmembrane domains was polymerases was updated and rewritten for clarity. completely rewritten to reduce confusing language Chapter 15 The Beadle and Tatum experiment and presentation and improve readability. The material on the role of of the central dogma were rewritten for clarity and membrane proteins was edited to improve accuracy readability. The material on eukaryotic transcription and clarity. was updated to reflect new information from Chapter 6 The chapter was rewritten to improve the genome-wide scans providing a new view of presentation of concepts of energy. Material was polymerase pausing and promoter usage. The edited to present the material in more chemically material on the integration of transcription and appropriate language. Material on thermodynamics splicing was updated to provide a more modern view. was rewritten to increase accuracy and readability The section on mutations was completely rewritten for students. A new figure on entropy was included to reflect new data on human mutation rates. to remove confusion introduced by the old figure. Chapter 16 The material on eukaryotic promoters and Chapter 7 The chapter was rewritten to clarify concepts about transcription factors was updated to provide a energy metabolism and make the discussions more modern view of the control of transcription. more chemically accurate. Edits were also made to The section on the relationship between chromatin improve clarity and readability. structure and the control of gene expression was vi mas92413_fm_i-xxiv.indd 6 28/11/16 12:26 pm completely rewritten to incorporate new data and current thinking in terms of fungal phylogeny. The present a more modern view of this critical topic. chapter was also edited for readability and clarity. Chapter 17 The material on PCR was updated to include Chapter 26 Edits throughout emphasize the adaptations made by reverse-transcription PCR (RT-PCR) and quantitative plants as they transitioned from an aquatic existence RT-PCR. New sections were added to provide a more to a terrestrial one. The chapter was edited for clarity contemporary perspective on molecular techniques and readability. used in biotechnology. Modern techniques for Chapter 27 The chapter was edited throughout for clarity and investigating gene function were added, including RNA readability. interference, knockin mice, and the CRISPR genome editing technology. Two new sections on modern Part VI Plant Form and Function applications of biotechnology were added, which Chapter 29 Changes were made to section headings to emphasize include the use of fluorescent in-situ hybridization and the key message of the section. The chapter was gene chips in medical diagnostics.  edited for clarity and readability. Chapter 18 The section on genome sequencing was updated Chapter 30 The chapter was edited throughout for clarity and to reflect current high-throughput technologies. The readability. material on the Human Genome Project was updated Chapter 31 The chapter was edited throughout for clarity and to include information about the Cancer Genome readability. Project, and new material on the wheat genome project reveals the challenges of sequencing larger, Part VII Animal Form and Function repetitive genomes. The section on bioinformatics Chapter 32 The material on tissue types was rewritten to improve was updated to include material on the use of mass readability, and a new figure was added showing spectrometry in proteomics. the different types of epithelial tissue. The table showing different types of neurons was changed to a Part IV Evolution new figure to improve clarity. The material on animal Chapter 19 The section on variation in natural populations was locomotion was edited for accuracy and clarity. completely rewritten to take into account new data. Chapter 33 The material on supporting cells was updated This includes extensive material on variation in to include new information. The description of human populations. Learning objectives throughout membrane potential and action potentials was were rewritten for consistency and clarity. rewritten to improve clarity and readability. Chapter 20 The chapter was edited throughout for clarity and Chapter 34 The chapter throughout was edited for clarity and consistency. The material on biogeography was readability. updated and rewritten for clarity. Chapter 35 The material on distinctions between receptor types Chapter 21 The chapters was edited throughout for increased was rewritten for clarity. A discussion of the ability readability for students. The material on biological of steroid hormones to act via membrane receptors species concept and speciation was rewritten to was added to update the material in this section. improve clarity. The section on the action and control of G proteins in signaling was updated and rewritten. Material on Part V The Diversity of Life osmoregulation in fresh- and saltwater fish was added. Chapter 22 The material on cladistics was edited for clarity Chapter 36 The material on blocks to polyspermy was updated and readability. The material on the evolution of for clarity and accuracy. The section on embryonic multicellularity was edited for clarity. stem cells and the the reversal of determination was Chapter 23 The prokaryotic genetics section was rewritten extensively updated to include new data and provide for clarity and to provide a modern perspective to context for the student. complement the historical material. The material on Part VIII Ecology and Behavior human diseases caused by infectious agents was updated. A section on giant viruses was added to Chapter 37 The chapter was edited throughout for clarity and provide information on this exciting new area. readability. Chapter 24 The chapter was updated for accuracy, with new Chapter 38 The chapter was edited for clarity and accuracy. The material added on control and treatment of malaria. data on human populations was updated. Chapter 25 Updates focused on emphasizing the relationships Chapter 39 The material on mimicry was rewritten for clarity and between structure and function in fungal forms. The accuracy. The material on keystone predator and chapter was restructured, moving the more applied succession was updated for accuracy and readability. aspects of mycology to the front of the chapter. Chapter 40 The chapter was edited throughout for clarity and Changes to the Chytridiomycota section reflect readability. changes to this edition vii mas92413_fm_i-xxiv.indd 7 28/11/16 12:26 pm A Learning Path to Understanding Biology Understanding Biology and its online assets have been carefully thought out and crafted to help students and professors work efficiently and effectively through the material in the course, making the most of study time and instructional goals. The Learning Path of seeds introduces into the life cycle a dormant phase, which allows Each chapter is ▶ 26.6 Seed Plants Were a Key Step the embryo to survive until environmental conditions are favorable 26 in Plant Evolution for further growth. organized in a way that A pollen grain is the male gametophyte guides the studentC ONCEPPlaTnt s34.10 The Four Chambers of the Heart Talhloew hiinsgto trhyCe o af nOtchees NtloanrsCd opflE aanqPtusa itTsi cf i al3llegda4e w toi.t1 hc o1elvo onluizteioT hnaahrrsyhe i na nnCodv vaiatrirociendsu latSeoaecerhd y opfl awHnhtsi icpghro cdhouncwseis ttwas ooy fk ji unIsdsts a o fCfe gwao mceemltlos.p pPhoyltoleesns— gemraaidnles , a mndu lfteimceallluel—ar Contract in a Cycle terrestrial teorrafi nAs. 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As thyeo u unOdneer sstpaenrmd wunhiteesr ew ith the egg and forms a zygote, which oppflr aenectesd aeadp cptehaher at ops pheeaavreac necveto ilovofe dg nyfmro nmho sspepeorrmlep-sb ea anyrdin oagn pguliaons ptise drkmneso.w Snne eatds i fy itimso wthiteph fineo mtharele tp goaallmenne tgtor pachiny.ote bny wcined opr otthser. means. The sperm mblaeritcgwreoer sespnao crased. -jAcaoct nethntaitsi n ppiaoniigrns t ,ao tnfh tehc ehbrai nmucbcolenertasitn ebu mreesai cktrsoo sdpmoowraetnus, r helae, vaevt hibneeg c wotmwaloel thteh dtsechpe oeevm rentmlwatoe ptonexs u prtic nioloaetloaufl r sfiao .nntts uhe cmeilnerbi r yuon istpeo, rTftcmctehhohhafaeeanett opce tfuCoeeotrrexileopalrot ntl a psicwnilt nlo reiiutn nnhdcs gtbettiahffi rm incaioeenogtnlrseon edt sgcmhyn eoyheta pfo crt Cieteewhsoalrat :ainficapntvchelte eee r Pte rpomasltg a.rsda ttT i ejvoohpdefri s rt soe l aa ntrt.i pATlohiesd o spthreeimr ssaprseyr mienn© Dra. dParvninodger Sde-thi the Learnpmaswplrhloeooidrwgcmehyi r sfmnpo nh arnga raotdyins cmlp uegineanlavrocrmesr espg.sae r T.osr emuhPP peisrn i,oor gfgir neyiparcpmrtlrohuong ddloyaitusnmtpcegtren hi roosimnens cp sdwoe enrasvmdshe aavlsorre gyepra dymvv seeasi nsmerctiv)spu.ee llrSea at,oro l a m tsnfieesedes a piudttur e ipossrlge aus(ynwn mtcwshln.eiicoathhr- ■2 6W.7hy isG wyatmer nnoot esspseentriaml fosr feArtrileiza tPiolna inn stese d plants? pscoulllepntTu grheread i,on ausnt.edr ipt oclolnenta ginrsa icnh wemalilc alalys etrh aotf tmena yb reecaocmt wesi tbhe oatuhtiefrcusl oilnyn ceptrcseop niensai sttTeth dhoelefy ,pct hrbhiomeaucaspoarmtyne dienrsn.Cg do Ooft srNipcpeeCllrolmmasEis92d.413 P_ cnhE26_eEDSu5Tvti7rvou0enl-cnur5tsct9uii▲ot3ry en.di n doDEldf3x edLpt eie flo ae5romi7n0isun4 teshsse F Usuppnn.ictyt i1 oaebnend rremmgVi ntteisis srdsstuiueveebi dcrtiaahnnatge t rb amDepcaiiogdyml eyses oa tonaivnnde System08/1s1/16 9:4A0 amre rlomaevyepueirolree tsoi eFc(rfna rittolgwslmyu oa,rC n epoa rif2nom O6s dpp.eu1ovoc6Nrori)otn.la upgWnth Ciatyo i ahttnhdeaEa viptrnailys onPt sihcuadeeen Tm. docT veah egulel3cale eosed,plm 4ootthhgbreeeir.c . y ima3Tonl ehtiesgpe ga epmusrrpsomepotgTeeeracacnstnthpteig,vod cier eubre, mey pta ha rtDdoiennid vegsuix iedcttgeheerdaess estive Twraitcht “ NIsa kReedg Sueleadtse”d by asah psoetuirgtldum rape rsto,o ct hseiregodnu atgolh w cwohhmeitcphhlee rat i dopenov.l elTelonhp etmu pbeoenl tlm eonaf y gt hlraeat iemnr ahelmaes e garagrmeea.est ocpahlyletde T“thCheoeen nt xucetntehrxeineatsc.nUip vtTtsntei enht fipogerlar orrtCttehh pcoeoeeef e nn tnmChtnilebnyoe TUr,sg ncyuent 1o tecbhdp. id ieneuena irpgTl nngasmh t utretgsaeo th Tr”nrsspatie rd r tsfacfoi esloCccoeoanestwnos satsseutln ua,ror ccifienth nerdg i aitp pgiphscletl oaacsositon tdins ort fsnsnhoe., nootlalhcdwoncoaduw s trhpi s tlo e eiipnrnwarm kowc v chhtwioido caPe hnsst ah ocrfee tt p hient sf o llowing taschealseeno d e b cgceogoD en atauttha.sr aiiIinlnnttUy g ca had o dfndimosd 1eepoivbdte.diei or n lsesoNneeup sdtpr mTo.wpe s Ppeliyhnertth orrtfae,h to vtearht cnh peattoehsi ns dreepig uvrnde ettierhenmsvvge em u,eal omrmoSelpresb einunoy rstglyits ogfis en nh mfgfiartf obroiiedmncryea o tonmndhd. treltoy o zu, iygtpahnghreoott ,ntdp eoturh.e dce Sse tees he netehdcHedees sotormmaocnhe stsimulateFerns and Alliess theGymnosperms releAngiospermsase of believed to be the ancessttrraulc tsutraetse o fi nth ea nvgeritoesbpraetrem dsig. eAsti vree csyesntte m? (Select all that gastrin. What is the function of gastrin? Pollination and the male gametophyte preasneanlytseids oinf dexifftaenrt,e nbat scahla paappnlygt.ei)orssp earrmes r erelvaetealded, ctohantn deicpltoeidd by a. GSatorsetdr foiond is a protease enzyme. Pollination is simply the transfer of pollen from its source (an unifeynidnogsp ceormnsc ewpertes ainls ob icooalmo. gmEsyoo.n pT.h ahTgehuess efe imcoalne sg ianmdeitcoabp.th eyS tmwea hliln ai ntt eusntinifeying b. GI(nsateesegdtu rcmoieannt)t activates pepsinogen. apnotlhlienra) ttioon a traekceesp ptilvaec ea rbeeat w(theeen s tfilgomwae rosf oaf fdliofwfeerreinntg p plalanntst) .a Mndo isst contuchneecslpee tassrp aewcrhieee stih llheuars sd tfriopaAultporeip,d dlny oocb.tr yeSt rittgiohphmletoa, iccndhou ecnnletdeio. nsApt eti rntmh tesh maero ecm htdeha.n eptL ,m atierotg rrei.es i ntestine cd.. GGaaEssmttbrrryiionn hstyimdruollaytzeess t hpero rteelienasTpas.lhehly e ltraoeecs fk,a ctrphyee ce fafopdluoosrwp ihengyrrsoto euagsnp, edsg nnforef ut aoiltipnsvh icdynht gaeH rsga, cyCatmneldrn.i sogtsiinpc keogrfom apnsh:gy ictoeossnp. ieTfrehmreosy-. In them all, the ovule, which becomes a seed, rests exposed brought about by insects, wind, water, gravity, bats, and other ani- primitive. 1. The primary function of the large intestine is to concentrate Apply on a scale (a modified shoot or leaf) and is not completely enclosed by sporophyte tissues at the time of pollination. mals. In as many as one-quarter of all angiosperms, however, a wastes into solid form (feces) for release from the body. How 1. Eating a meal that cont3a0i0n μms a loTth eo fn abmue ttgeyrm nwosiplelr tmr iglitgerearll yw mheiacnhs o“nfa ked seed.” pollen grain may be deposited directly on the stigma of its own Germination and grodwotehs i to afc ctohmep slipsho trhoisp?hyte Figure 26.16 Crotshs see cftoiolnl oofw ani novgu?le. Amlatthuoruitgyh t hthee s oevedusle osf a grye mnankoespd eartm tsh ea rteim soem oef tpimolelsin eanticolons, eadt flower, and self-pollination occurs. Pollination may or may not be a. By adding additional cells from the mucosal layer © Biology Media/Science Saou.r ceIncreased release of chyme biyn stpoo rotphhey ted tuisosudese.num followed by fertilization, depending on the genetic compatibility As mentioned in section 2b6. .6B,y aa bsseoerdb inmga wy arteemr ain dormant for 582 Part V The Dibve.r sitCy oof nLifteraction of the gallbladder of the pollen grain and the flower on whose stigma it has landed. many years, depending ocn. Bthye r eslepaesciinegs .s aWlthen environmental c. Inhibition of secretion If the stigma is receptive, the pollen grain’s dense cytoplasm conditions become favorablde., tAhlel soefe tdh eu nabdoevrgeoes germination, and d. Increased secretion of pepsinogen and HCl absorbs substances from the stigma and bulges through an aper- the young sporophyStey nptlhaenst izeemerges. Again depending on the mas92413_ch26_570-59S3.indyd n 58t2hesize 08/11/16 9:40 am ture. The bulge develops into a pollen tube that responds to chemi- species, the sporophyt 1e. mCayhe gmriocwal daingde stdieovne ilnovpo lfvoers hmyadnroyl yyseisa rrse actions. Given what 1. Starving animals often exhibit swollen bodies rather than cal and mechanical stimuli that guide it to the embryo sac. It before becoming capable oyfo rue pkrnoodwu catbioount, hoyrd irto mlyasiys qreuaicctkiolyn sg frroowm chapter 3, write the emaciated ones in early stages of their deprivation. Why? hydrolysis reaction to break down the disaccharide lactose. follows a diffusion gradient of the chemicals and grows down and produce flowers in a single growing season. CONCEPT 34.4 Respiratory Systems Promote tthakroeus gshe vtherea sl tyhloeu arsn dto i nttwo ot hdea mysi ctroo preyalec.h T thhee pmoilclerno ptyulbee, ubsuut atlhlye plants Wine c phraepsteenr t3 a0 .mCoOreN dCeEtaPileTd 3d4es.2cr iptFioono odf Irse pPrroodcucetsiosne din As It Passes Efficient Exchange of Gases Through the Digestive Tract journey may take up to a year. Pollen tube growth is more rapid in Understand angiosperms than in gymnosperms. Understand 1. Fick’s Law of Diffusion states the rate of diffusion is directly REVIEW OF CONCEPT 26.8 One of the pollen grain’s two cells, the generative cell, lags 1. The _______ and _______ play important roles in the proportional to behind. Its nucleus divides in the pollen grain or in the pollen tube, Angiosperms are charactedrigizeesdti vbey porvoucleesss tbhya pt raot dpuoclilninga ctihoenm aircea ls that are required to a. the area differences between the cross section of the blood producing two sperm cells. Unlike sperm in mosses, ferns, and enclosed within an ovaryd iagte stht ep robtaesines ,o lfi pai dcsa, rapnedl ,c aar bsotrhuycdturartee s. vessel and the tissue. some gymnosperms, the sperm of flowering plants have no fla- unique to the phylum; a fruai.t dlievveer;l oppasn cfrroeams the ovary. Evob.lu ktiiodnn-eys; appendix b. the pressure differences between the two sides of the c. liver; gallbladder d. pancreas; gallbladder membrane and how large an area is available for diffusion. gella. At this point, the pollen grain with its tube and sperm has ary innovations of angiosperms include flowers to attract pol- Apply c. the pressure differences between the inside of the organism become a mature male gametophyte. linators, fruits to protect embryos and aid in their dispersal, and 1. The small intestine is specialized for absorption because it and the outside. Double fertilization and seed production double fertilization, whicha .p riosv tihdee lsa estn sdeocstipoenr mof ttoh eh deilgpe nstoivueri strha ct and retains food the d. the temperature of the gas molecule. the embryo. longest. Apply As the pollen tube enters the embryo sac, it destroys a synergid ■ What advantage doesb a. nh aasn sgaioclsipkee remxt egnasiino nbsy aplorondg uitcsi nlegn ag th that collect food. ▲ 1. Which of the following evolutionary adaptations to increase in the process and then discharges its contents. Both sperm are fruit eaten by animals?c. has no outlet, so food remains within it for longer periods At the endga so efx tchhaen gceh aarep mteatrc, heeda ccohr rcecotlny?c e(Spelte cist aalls tshaet sasppeldy.) at three functional, and an event called double fertilization follows. of time. different lae. vBeelasti.n Og cni liyao—uinr cfirerasste psuarfsasc et harreoaugh the chapter prior to d. has an extremely large surface area that allows extended b. Bubbling gas into a fish tank—increases oxygen ▲ exposure to food. class, you wciolln cwenatnratt ioton dfoiffceuresn coesn questions at the “Understand” At the end of each sSeynctthioesniz, eReview of Concept questions level. As yc.o uM egmabirna ngesr elianitnegr t hme alusntges rayre, yonoeu-c eclal lnay cerh tahilclek—nge yourself 1. How does the digestive system keep from being digested by decreases distance allow you to check your tuhen gdaestrrisc tsaencrdetiinongs bit eprfoodruece ms?oving on with Appldy. aAn sdm aSlly dniatmheetseri zine bqacuteersiat—iodnescr etahsaest sruerqfaucei raere haigher to the next concept. cognitive skills. Chapter 34 Fueling the Body’s Metabolism 819 viii mas92413_ch34_789-821.indd 819 11/11/16 11:29 am mas92413_fm_i-xxiv.indd 8 28/11/16 12:26 pm Chapter 26 Plants 589 mas92413_ch26_570-593.indd 589 08/11/16 9:41 am Think Like a Scientist Scientific Thinking figures throughout ◀ I nquiry & Analysis the text walk you through a scientific WGlhuyc oDsoe Dini aTbheetiirc sU rEixncer?ete Effects of Eating on Blood Glucose Levels Inq features at the end ePayonxrepudd e tCiorcio mtdinoeecnvnlusits,s, eTiloa efynusi.rnt StPgho reoomruc eete xtdahpluseero reHi mscy,h epRanoellttesshun.e lgtsseis, , Ldrtbcigmlanheailiacuustnseutokpoicldesra oroei- ttdononsushefege ndp e tr.i s tht noahetpeIio fktennl t a rmehd iaisn dewinm.poas isifhuabbIuad nbilelg l cio etiimnlhemnonut isse,dctci teom olishardsw ,s etb a eiahh h cro. roabi aosnelAnrosewe cmeeord seeist,f yoo phv, s’ agnuteehsbollers olul,rb ocow actoewgionhonnldlddailsu ysn etit c ’ ginhg snoiltl e osrucsttc a hsehrcpennee eoelle sama l sspietsscelh oidmoel sneluelrltegeailtsadrc ev ltr tymurrevotaa lloecc eebts ih tom sioaftrla mornikibantisr,egrmycn e a cg tt eouhhnuttelnoopeeesr- MBlood glucose level (m)11505 Kidney thresholdDNioarbmeatilc uiry & Analysis oyidnofev uetea vsiinelt,it rgpoya r aceti hsoseacnpni eittnenin rtmgi fit oacykr oeeu ▼ suenvtereraatl edti mcaesse st,h bel onoodr mglaulc ovsael uleev eolfs m4 amy Mbe;c oimn es eevneorre- 00 1 2 3 4 5 6 with experimental mously elevated, up to 25 times the normal value. A char- Time (hours) SimoTtPHnhferydae CecsputsdytRueco:Iti ercoe EtimOnmthdpigNooea loat cnstoovsuTyi:e oms mrtice:FIn ayssrFgT otth eua hIgcorsreCe uee ocrll lode(iso unc TniinadnystdurH tadieeecniuns erjIpce g daNaeoco r tswp eaeKmiIo tinndtaieshv jI rieiiime rNntopcei tvsmtrroseoeGits a egig)rmt deeubum gslyriaetnu aept loGotraruoorot2rsong ceo ereyo fo,ots f emt oftch e ccteeeroyeoilno tllu nel sd cndesiyisd.v itvt ioeIris.es rpiTgiaoolhaotnnmes .,mmy ei nenc fjiatero.on csImft i biso .en goccpmkwooelfeoiheo lnnncMlxedt aey nrecrsPtot lyaehTTe clFclsr aohh (oe l.nCaemeemf s,t s dChtt paeomhhkal idfeeenCn)itc xt,se c2 dose tneia hskdpm sl ia cl iruse mwptoa-cs nlpilteyiepsleztrfec ,lyihou ldysnaem mli c nwptfieyohgnrrpasctaoel riselhm tnoai -eetnirgmchgeine.yn we hgf ocT ateifkotlhncirhierire net nkieso sgse atukr fn si,fkoted gehiayartnei a sh ernudntp ynee initoot dz nisdftsoyrg eeiimrifmet svro ild sveayeliete estedca uc t ayn wmhrertscdeoaaltaullgi,tt is nc itundi aodstepi fAdcbohghcsnrolwfoc-ifoaiunaea l fvfdrs dtassesmmtetl ct ieoiie seeacocearaeesvrri toro ertipr rito iondhil eigo ssrTnlrndaevfegfeaenyeete nuv oamu hier n o1t ce.,rrmalmanecc y0 fdtoyioml fld mhoo iTenss0gus regionti yrmama?e onrhhonanrhwgrol.smalegygb”teeeut --trutpes a pa enpg hrwbtmIetteoh esnsordi f sos ts mt ioh ohrsigonmftobp ne.lf oous ulgne ragf t(lc lWm ylulbgmoeuifslctlavoshcu ouuoseleooyeno css nd s ,oei-ia elt,ncd smrmi o iandeedoenrel ei ieiae llvse)atdemcsd shxinnhd daoceosad’ nulgt r ltvii u“dee alnaeu3ecrt ilbddetsixc0au ein, doc v-li tdeedm.neseib .odses is Tywai Tu s ntb iihfoaashsvureceltlo eeot eeto te i mdhrrkncns .aier aie tan Bnadr (ncm etarcnnlrdhexosedkeee edtc oity 1c, a iro da u-oelbffh voirngtl entoevnuit eltoherueouilis)nyydcesrf-t. 2. bI bn.. tlgtCtdtIieohhensliros nuaeedpttmb gchi dlrvdeoe epeidivtosartdaioeeesbciurnele e liapa?sgbetnn eilv eic’gDrytsfe s o p ctlaobp areuttnleokoraor’ sies tvonorh ebefdtneso tl ?a .ougrt te IoHrl tssunwdh ot ct e htwghdoo ielnos cul toseoihchemr no le?mtegs phlve aaeede lcvl o lentpes evola es eernrb lxmisysetco fattednooalei’r k sfderf ee b e tttfrlhuhooeerenron t dt htf ooe r rydapeocarsatutuiac vtl.tiot itAsci e iesans snty eocdorca upcinarrh ethdaeteal dlttleh paone nyg oliinnuge cytoplasm cytoplasm plex regulation. intervals. The dotted line indicates the kidney threshold, kidney threshold? The Cell Cycle Can Be Halted ft(ahlubeio dmu pta a1xs0is mimnugMm th) rctohouangtc heth niett r wakthiidoennne ayol fli sob fal oibtolse dg tloug clruoecstoreis-eetvr aemn fsorpoleomcrut itlnheges b. Ibthsl orteohsdehr ogel ldau?nc yo speo lienvte alst wdoh incoht tehxec deieadb tehtiec kiniddniveyid ual’s analysis skills. at Three Checkpoints channels are being utilized full-bore. 3. Making Inferences a. Why do you suppose the diabetic individual tPreroagteeds toeorocnyete- Arrested oocyte Oocyte in meiosis I LkeEyA cRhNeIcNkGp oOinBtJsE inC TthIVe Ee u10ka.6r.y2o ticD cisetliln cgyucilseh. the rolesA onf tahley thsriese tdoooske? so much longer to recover from the test CpRPoreoessndiutciillvctue:t si oIirnoenjnge: :uc IftlT aemhtdoei troo poosrcfios ym gitseea ssdtu trperivarrooetignnore nbe :tys rM sep aaforttosumimrteiav ntGeito 2 rcn e ai gnPutursoolea mmsto oeprtisriono, sgdtihs uFe cIan.tci octonyt roo (fpM alaP sFm). Aamhralablttrhietkordeau.dr gy Thb h yfpeo h raac cseclelahls re,iu ctsytkhe pwes o etic hnheetals lv eae it t tdshweirvlhefiie dc erhced hc ttoehhcgeekn epcizuyoekcisnlae trs ty hcobarteoniect h bc peeth ol1lda .c seaeylsA aassc.y,el p eesRoope dsfnilea n y caictotitohdohnsrnei gn s nuCgo moarmn icncuagelr p tvihtnese.d Witveishdta udta oilss’s et hboelfo igomldu mcgoleusdcei?oa stHee oilmewvp e alsc t 4. bDse. rcaWeErxewxotcpeirunl esalgtdwie n C yeg.oeoltuun u cceorlxiusnpesee?i?oc Etn xtshp elWa ninhoy.r m Tdhaoel d idniaidabibevetiidtciuc ia nilnd tdiovi vi diduuaalsl? from a mitotic cell should cause a G1 cell to enter mitosis. internal state and to integrate external signals (figure 10.16). The Tfreosmt: thMe pGh1 apshea cseel lcse allr ies fmusoendit owriethd Gm1i cprhoassceo pcieclalsll,y t.hen the nucleus cahs elcaktep oiinn tms aertea plhoacsaete d(t haet tshpei nGd1l/eS cahnedc Gkp2/oMin tb).o uPnadssaargiees ,t hasro wugelhl Insulin not present Insulin present tfholelsoew sth.ree checkpoints is controlled by the Cdk enzymes, as Glucose Insulin The G1/S checkpoint The G1/S checkpoint is the primary point at which the cell M phase cell G1 phase cell Fused cells “decides” whether or not to divide. This checkpoint is therefore FCreuogrnutchlaleutros Eiro xtnhp:ae tCr icmyatoeupnseltasss: amH c oferwollm tco aM ne npbthoeatrh sm eoi tfco tehslilesss. ceo enxtapienrsim ae pnotss ibtivee ttcahhyneecd lp cenry,u icmatlrseia t.wr ioIyetn lp.ilos a itnsh tte ah tep w hpahhsiaecsh ed e utxrhtiaentrg nl aiwnl khsisigc chne aglllsr odcwiavntih sii noffanlcu tteoonr ccs eeal elf vfgeercnott wst hothef Irnescuelpintor trGacnhlusacpnoonsreteler Glucose rationalized? What would be the next step in characterizing these factors? Chapter 34 Fueling the Body’s Metabolism 817 nFdeiivcgeiussisroaenr y.1 0fo.1r 4c elDl-icsyccolev eprryog oref spsoiosni.t iTvehe rseeg sutuladtioesr ionfd cicealtl ed that HConcentrationigh mCMasyP9c2Fl4i na13c_ticvhi3ty4_789-821.indd 817 11/11/16 11:29 am iDnN yAea ssty tnhtehrees iws e(rcea ltlwedo cSrTiAticRaTl )c oanntdr otlh peo cinotms:m thitem ceonmt mtoi tmmietnots itso. Low Uncovering Connections Between Concepts pOanses inpga rbtioctuhl aorf tgheensee, bnoaumnedda rciedsc.2, was shown to be critical for G2 M G1 S G2 M G1 S G2 M MPF is cyclin plus cdc2 Figure 10.15 Correlation of MPF activity, amount of Afollll oowf itnhge steh friened ionbgsse crvaamtieo ntosg. eFthiresrt ,i nt haen perleogteainnt feanschoiodned w bityh tthhee ccoyncclienn ptrraotitoeni na,n adn MdP sFt aagcteivsi toy fa trhe ep lcoettlel dc yvcsl. es.t agCey ocfl itnh e cell ◀ A “Connecting the Concepts” feature at cdc2 gene was shown to be a protein kinase. Second, the purifica- cycle. Both change in a similar repeating pattern through the cell tion and identification of MPF showed that it was composed of cycle. The reason for this correlation is that cyclin is actually one the end of each Part in the text shows both a cyclin component and a kinase componenCt (ofignurne 1e0.c15t)i. ng ctohmpeo nCenot onf McPeF, tphet osth ePr baerintg aI Ic y cBlin-idoepleongdeynt koinafs et he Cell Third, kinase was shown to be the Cdc2 protein! (Cdk). Together, these act as a positive regulator of cell division. how seemingly isolated concepts in Life descended from early cells over 3.5 BYA. Over life’s hiCsthoarpy,t ecre l1l0s h aHvoew a dCaepltlesd D ainvdid dei ve2rs1ifi1ed into hundreds of different types. The diversity of life is driven by how organisms acquire and process energy in the highly regulated reactions of photosynthesis and respiration. Plants have specialized organs, tissues, and cells to convert the Sun’s energy to chemical energy. Eukaryotes have specialized organelles that carry out the different chapters are connected by regulated reactions of aerobic respiration. Mason_ch10.indd 211 08/09/16 5:14 pm unifying concepts of biology. (cid:127) Early life did not use oxygen. (cid:127) Life descended from early cells that spontaneously (cid:127) Some prokaryotes adapted to anaerobic arose over 3.5 billion years ago. environments by using molecules other than oxygen (cid:127) All cells have a plasma membrane, cytoplasm, and DNA as the final electron acceptor in cellular respiration. centrally located either in a nucleoid or a nucleus, but (cid:127) Fermentation is an anaerobic process that uses vary in other structures. organic compounds as electron acceptors. (cid:127) Prokaryotic cells lack compartmentalization. (cid:127) Aemleearcdotebr oiocnx ryaegcsecpenirp aattvoiaor inala nubdslee e.sv ooxlvyegde na fatesr t pheh ofitnoasly nthesis odSroognam’tn eisusme sO 2 ofa orcneee olcl rsoog mra mpnAoioslsrmleeds (cid:127) cPelanntrtsa lc veallcsu hoalevse(cid:127), cAwelhtlhli lwoeu a gallhns, i mcchharlloo cmreoolplsslao lsamtcsek, sathtnreudsc letau rfrgeeae dt uiffreesr.s (cid:127)(cid:127)(cid:127) LPpLmcwmheehiaigolanaoovmlfiveterm oesoceltseisupnrzy nulletaean gcsrmssttet ht uwhoes erts.laxhese pto eiceasaf u.rl mnl l loiledgoawsihsinn sstign , ,fo wao tprhnrgil tdaegahn an csdtsseps i leeff flaosxceb rctwr rshe uoiantmhrntb i gnp ose ifcgp oatmehnnceedtia fin ictn stnalPdetpada erarofsisehtnysotohp thEedev ixouvopfnel luliraitstfyiieino tasynnd process of cell division.the controlledarise fromAll cells (cid:127)(cid:127) PLbDcbcrehoaeirNnqorrmtAaogwukprme aiesyrlrrete eo yrfiadxnusosn, o cts tpddehmtiuro suemoern e heke .o a aa tvEaronvroeuny del gkdouc e aa ottdfein rumosiysvonino npimadc tgolntieeecilfdoex cmds n gelciio ziviueatreniocrkns.aesuai ooli llrsmsayny i rtm oeboi stsyi e l asr,. Sun’s energy plants absorb. segregate chromosomes accurately. (cid:127) Pbilnandtss o uxsyeg erunb, irsecvoe tros ifinxg CcaOr2b bount fi rxuabtiisocno. also (cid:127) mC4i nainmdiz CeA pMh optloarnetssp hiraavteio and.aptations to (cid:127) Photosynthetic organisms (cid:127)(cid:127) capLmwoaPlricceeimegaaoitnfnxohgham ahppcnpdoeowhikccitttvoor rttte-teuuughogee-iisr nodrrrs atsyAdprp eeaednetyan h T io ne esspinlitletPtlciwht.tlph eg e re litesmaieininehhfccsmt nentdrteSrt oo Cerdu.sdete ulo fhn e OcencnoanNnetechnt2err’usA usr metersri.rg Delng yemee ya noPyssnt icht t fH ceahtfo tearhi rneo o glad snmyti s s Photo-synthesisuses lightenergy to makecTorganic molechules haegennorgevmeregosrynd yanellLanmiveitcirrsngagyn ss&fy osm rtmCeaemltlctso eosromgrtmxiapo endotiidzcuarienbvdoelsism Liti vrdanbaipryefnenr oCpf goersrrcee iemastegndicycsuabdsatslateial to iocsteoekn nmnd ss Proteirn erkgeiucneliaasrps tetceesaodrpr seopfnhucdol ylstycoplTehhloerat yic-oelnl inhibition (cid:127)(cid:127)(cid:127) TAPwetelihvhvnhlhlaiee eoniotcn rt gbffoght o uilsyw oilefay-lelootnonlrl’wreyatgslhdr n ilagcteo.shcayssfeto liti fls vwrla omaiatsowwin ierhndslssdeg fco ia r nreofites v.ltm laohuacl enlvtathr ieroome prnc oeShesdsu ancpynn rnsi igrtayaaiesncmtstiadoe ili c nmnitsso .a ei nrtnhe ee r gy (cid:127)(cid:127)(cid:127) aauAEOEennnlsnTxeedoeePicddtr r tthsgag rhtyoetyyoeinn ro rfi.tcr renhc orel-eaeermnersaarei dtsisfeeroue.g rocdpsytd r, id o o lfiiutrnnkoor e itnm(nhr Negge odA r cfnaoDoeedxr+l li)m,mue rslne aoohtarlsufe c rtAtctethiTluoseaPlpn ete. is rdlt aeocrtica vitopernot u nirsse NeCddtcroxeeoaoantpnnwamcesci ealentpshpcpd lafettt osiotsso r,n ypn o“fio rsifLolnu ”lCi vf ’viuovnioidnesr ntmeig hnnsd aeeges.ty e csitsotnhuitnn eeptgw mp ootshr tein g a learning path to understanding biology ix mas92413_fm_i-xxiv.indd 9 28/11/16 12:26 pm

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