- Page 2: BUTTERWORTH-HEINEMANN An Imprint of
- Page 8: Color Plate 1 One of several propos
- Page 12: A or α cell (glucagon) B or β cel
- Page 16: ROS DISK MEMBRANE (proposed) 1 RK A
- Page 20: Na + GANGLION CELL ON CENTER BIPOLA
- Page 24: C H A P T E R 1 Figure 1-1 The wate
- Page 28: Figure 1-3 Hydrogen bonds between w
- Page 32: K a = [H + ] [A - ] / [HA] Water an
- Page 36: This system is more complex in that
- Page 40: Figure 1-7 A cross section of the a
- Page 44: TABLE 1-4 ➤ the high levels prese
- Page 48: Water and Ocular Fluids • 13 high
- Page 52: C H A P T E R 2 Figure 2-1 The dipe
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Proteins • 17 TABLE 2-1 ➤ AMINO
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Figure 2-5 Primary protein structur
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Figure 2-8 Tertiary protein structu
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Proteins • 23 TABLE 2-2 ➤ MOLEC
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Proteins • 25 TABLE 2-3 ➤ CHARA
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Figure 2-13 One of several proposed
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Figure 2-14 Graphs of protein conce
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Proteins • 31 Figure 2-15 The agg
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N + H 2 + NH3 O C - O O , Fe 2 Tryp
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Figure 2-20 Partial diagrammatic cr
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Figure 2-22 The conversion of rhodo
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Proteins • 39 Figure 2-24 Simplif
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Figure 2-27 Molecular diagram of a
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Proteins • 43 Figure 2-28 Cellula
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Figure 2-30 FACIT (f iber associate
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Figure 2-34 Graph of fiber diameter
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Figure 2-37 Type VIII collagen and
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References Proteins • 51 P R O B
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Proteins • 53 Harding JJ: Changes
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C H A P T E R 3 Enzymes OCULAR CATA
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Figure 3-2 Noncatalyzed reactions a
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Figure 3-4 Graph of enzyme activity
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Figure 3-7 The effect of an activat
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Figure 3-10 Lineweaver-Burk plots f
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Figure 3-13 Cut-away diagram of a G
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Figure 3-16 Molecular mechanism of
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Enzymes • 69 The corneal stroma i
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Enzymes • 71 ocular, make use of
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TABLE 3-1 ➤ Enzymes • 73 SOME C
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Figure 3-24 Gel density pattern of
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Figure 3-25 Diagram of aldose reduc
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Enzymes • 79 fibrinlike repeats,
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Enzymes • 81 breaks structurally,
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Enzymes • 83 Kinoshita J: Mechani
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C H A P T E R 4 Figure 4-1 Two exam
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Figure 4-4 A common laboratory proc
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Figure 4-7 Partial structure and bo
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Actin-Myosin** (complex of two musc
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Figure 4-11 Diagrammed outline of c
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energetically primes the molecule f
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Figure 4-17 Typical cross-sectional
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Figure 4-19 The Krebs cycle. ➤ Th
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Figure 4-23 The glycerol phosphate
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occurs from the activity of a “de
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Figure 4-26 Gluconeogenesis. ➤ Th
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Carbohydrates • 107 total yield =
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Problems of Carbohydrate Transport
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Figure 4-28 A molecular diagram of
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Figure 4-32 Diagram of islet cells
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Figure 4-34 Glycation reaction. ➤
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Figure 4-35 The polyol pathway. ➤
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ET-1 E-M pathway glucose G3P + DHP
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Figure 4-39 Cross-section of the co
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OCULAR EFFECTS OF GALACTOSEMIA Zonu
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Figure 4-43 Repeating units of the
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Carbohydrates • 127 unknown, but
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Carbohydrates • 129 what type of
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Carbohydrates • 131 Mizutani Y, e
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C H A P T E R 5 Lipids The terms li
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TABLE 5-1 ➤ PARTIAL LIST OF FATTY
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Lipids • 137 Figure 5-4 Phospholi
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Figure 5-6 Two typical isoprenoids.
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Figure 5-10 Sialic acid or N-acetyl
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Figure 5-14 An example of a micelle
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Figure 5-15 The arrangement of the
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Figure 5-17 Layers of the precornea
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150 • Biochemistry of the Eye Fig
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152 • Biochemistry of the Eye Fig
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154 • Biochemistry of the Eye TAB
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156 • Biochemistry of the Eye Dav
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C H A P T E R 6 Hormones The comple
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Figure 6-2 General scheme of hormon
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PEPTIDE, PROTEIN, AND AMINO ACID DE
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STEROID HORMONES1 TABLE 6-2 ➤ Fig
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TABLE 6-3 ➤ SECOND MESSENGER (INT
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Figure 6-7 A cascade mechanism. ➤
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=O R1-C R2-C =O PIP 2 OCH2 OCH CH2O
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INNER SEGMENT OUTER SEGMENT # γ−
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Figure 6-11 Overall diagram of visu
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ROS DISK MEMBRANE (proposed) 3 1 RK
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Figure 6-14 Plasma membrane, hormon
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Figure 6-17 Cross section of kidney
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Figure 6-18 The formation of prosta
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Hormones • 185 to the existence o
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References Hormones • 187 Abdel-L
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Hormones • 189 Urban RC, Cottier
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192 • Biochemistry of the Eye Fig
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194 • Biochemistry of the Eye Fig
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196 • Biochemistry of the Eye Fig
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198 • Biochemistry of the Eye Fig
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200 • Biochemistry of the Eye Fig
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202 • Biochemistry of the Eye Fig
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204 • Biochemistry of the Eye Fig
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206 • Biochemistry of the Eye 40S
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208 • Biochemistry of the Eye 3'
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210 • Biochemistry of the Eye Fig
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212 • Biochemistry of the Eye Fig
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214 • Biochemistry of the Eye p53
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216 • Biochemistry of the Eye The
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218 • Biochemistry of the Eye The
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220 • Biochemistry of the Eye TAB
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222 • Biochemistry of the Eye Fig
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224 • Biochemistry of the Eye Glu
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226 • Biochemistry of the Eye cry
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228 • Biochemistry of the Eye Har
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C H A P T E R 8 Ocular Neurochemist
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Figure 8-2 The differences between
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Figure 8-5 The molecular structures
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Figure 8-8 The receptor protein for
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plasma membrane portion of the prot
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Figure 8-13 Triad synapse found on
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Ocular Neurochemistry • 243 shoul
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Figure 8-17 Principal cells and syn
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Ocular Neurochemistry • 247 There
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C H A P T E R 9 Ocular Immunochemis
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Figure 9-2 The variable domain of a
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Figure 9-4 The large IgM molecule.
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Figure 9-6 The development of plasm
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TABLE 9-3 ➤ (1) tears collected w
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Figure 9-8 The initial reactions of
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Figure 9-11 Peptide binding complex
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Figure 9-14 Diagram of the chemotac
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Figure 9-17 Formation of free radic
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Ocular Immunochemistry • 267 unab
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Ocular Immunochemistry • 269 McBr
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272 • Biochemistry of the Eye Fig
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274 • Biochemistry of the Eye Fig
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276 • Biochemistry of the Eye Fig
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278 • Biochemistry of the Eye Exp
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280 • Biochemistry of the Eye mec
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282 • Biochemistry of the Eye Spa
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284 • Biochemistry of the Eye Agr
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286 • Biochemistry of the Eye Can
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288 • Biochemistry of the Eye Cor
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290 • Biochemistry of the Eye End
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292 • Biochemistry of the Eye Gly
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294 • Biochemistry of the Eye Imm
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296 • Biochemistry of the Eye Met
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298 • Biochemistry of the Eye dur
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300 • Biochemistry of the Eye Pro
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302 • Biochemistry of the Eye Shi
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304 • Biochemistry of the Eye Uns
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306 Answers to Problems Chapter 1 1
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308 • Biochemistry of the Eye 5.
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310 • Biochemistry of the Eye 3.
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312 • Biochemistry of the Eye the
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314 • Biochemistry of the Eye Car
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316 • Biochemistry of the Eye H H
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318 • Biochemistry of the Eye Pro