GITNUX MARKETDATA REPORT 2024

Hydrogen Bonding Between Cytosine And Guanine Statistics

Hydrogen bonding between cytosine and guanine occurs in approximately 70% of DNA base pairs.

Statistic 1

"Mutations in cytosine or guanine can disrupt hydrogen bonding and lead to genetic diseases."

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Statistic 2

"In a DNA double helix, cytosine and guanine pairing involves two amine groups and one carbonyl group."

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Statistic 3

"The distance between C and G pairs is approximately 1.08 nanometers."

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Statistic 4

"Cytosine can undergo deamination to form uracil, disrupting the hydrogen bonds with guanine."

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Statistic 5

"The energy required to break a C-G base pair is higher compared to an A-T pair due to the additional hydrogen bond."

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Statistic 6

"Epigenetic modifications like methylation can occur at cytosine residues affecting C-G hydrogen bonding."

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Statistic 7

"The hydrogen bonding between cytosine and guanine contributes to the stability of the DNA double helix."

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Statistic 8

"C-G pairs contribute significantly to the melting temperature of DNA."

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Statistic 9

"The Watson-Crick model of DNA structure exemplifies the hydrogen bonding between cytosine and guanine."

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Statistic 10

"Cytosine (C) and Guanine (G) form three hydrogen bonds in a DNA double helix."

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Statistic 11

"Hydrogen bonding between cytosine and guanine affects the overall helical conformation of DNA."

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Statistic 12

"The hydrogen bonds between cytosine and guanine enhance the specificity of DNA replication."

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Statistic 13

"The percentage of C-G pairs in bacterial genomes can be as low as 25% or as high as 75%."

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Statistic 14

"The C-G hydrogen bonds are stronger, making certain regions of DNA harder to denature."

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Statistic 15

"The hydrogen bonds in C-G pairs are used as markers for identifying CpG islands in genomes."

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Statistic 16

"Hydrogen bonding between cytosine and guanine is crucial for the formation of secondary DNA structures like Z-DNA."

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Statistic 17

"The interaction between cytosine and guanine is less susceptible to mutation due to stronger hydrogen bonds compared to A-T pairs."

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Statistic 18

"Guanine's nitrogen atoms, N1 and N2, and cytosine's N3 and O2 atoms participate in hydrogen bonding."

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Statistic 19

"In humans, the GC content of DNA generally ranges from 35% to 60%."

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Statistic 20

"DNA sequences rich in cytosine and guanine are known as high GC-content areas and are key regulatory regions."

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