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  • Part:BBa K2027001
    ...maintain its structure. In response to heat, our hypothesis is that these water molecules are released from the beta barrel, thus allowing the barrel to co ...moproteins. Therefore, we hypothesized that in the exposed air system, the water molecules would not be trapped with the chromoproteins and we might see col
    36 KB (5,616 words) - 07:11, 28 October 2016
  • Part:BBa K2027016
    ...maintain its structure. In response to heat, our hypothesis is that these water molecules are released from the beta barrel, thus allowing the barrel to co ...moproteins. Therefore, we hypothesized that in the exposed air system, the water molecules would not be trapped with the chromoproteins and we might see col
    36 KB (5,616 words) - 07:14, 28 October 2016
  • Part:BBa K2027017
    ...maintain its structure. In response to heat, our hypothesis is that these water molecules are released from the beta barrel, thus allowing the barrel to co ...moproteins. Therefore, we hypothesized that in the exposed air system, the water molecules would not be trapped with the chromoproteins and we might see col
    36 KB (5,616 words) - 07:13, 28 October 2016
  • Part:BBa K2027018
    ...maintain its structure. In response to heat, our hypothesis is that these water molecules are released from the beta barrel, thus allowing the barrel to co ...moproteins. Therefore, we hypothesized that in the exposed air system, the water molecules would not be trapped with the chromoproteins and we might see col
    36 KB (5,616 words) - 07:14, 28 October 2016
  • Part:BBa K2027019
    ...maintain its structure. In response to heat, our hypothesis is that these water molecules are released from the beta barrel, thus allowing the barrel to co ...moproteins. Therefore, we hypothesized that in the exposed air system, the water molecules would not be trapped with the chromoproteins and we might see col
    36 KB (5,616 words) - 07:14, 28 October 2016
  • Part:BBa K2027020
    ...maintain its structure. In response to heat, our hypothesis is that these water molecules are released from the beta barrel, thus allowing the barrel to co ...moproteins. Therefore, we hypothesized that in the exposed air system, the water molecules would not be trapped with the chromoproteins and we might see col
    36 KB (5,616 words) - 07:15, 28 October 2016
  • Part:BBa K2027021
    ...maintain its structure. In response to heat, our hypothesis is that these water molecules are released from the beta barrel, thus allowing the barrel to co ...moproteins. Therefore, we hypothesized that in the exposed air system, the water molecules would not be trapped with the chromoproteins and we might see col
    36 KB (5,616 words) - 07:15, 28 October 2016
  • Part:BBa K2027022
    ...maintain its structure. In response to heat, our hypothesis is that these water molecules are released from the beta barrel, thus allowing the barrel to co ...moproteins. Therefore, we hypothesized that in the exposed air system, the water molecules would not be trapped with the chromoproteins and we might see col
    36 KB (5,616 words) - 07:15, 28 October 2016
  • Part:BBa K2027023
    ...maintain its structure. In response to heat, our hypothesis is that these water molecules are released from the beta barrel, thus allowing the barrel to co ...moproteins. Therefore, we hypothesized that in the exposed air system, the water molecules would not be trapped with the chromoproteins and we might see col
    36 KB (5,616 words) - 07:15, 28 October 2016
  • Part:BBa K2027024
    ...maintain its structure. In response to heat, our hypothesis is that these water molecules are released from the beta barrel, thus allowing the barrel to co ...moproteins. Therefore, we hypothesized that in the exposed air system, the water molecules would not be trapped with the chromoproteins and we might see col
    36 KB (5,616 words) - 07:15, 28 October 2016
  • Part:BBa K2027025
    ...maintain its structure. In response to heat, our hypothesis is that these water molecules are released from the beta barrel, thus allowing the barrel to co ...moproteins. Therefore, we hypothesized that in the exposed air system, the water molecules would not be trapped with the chromoproteins and we might see col
    36 KB (5,616 words) - 07:15, 28 October 2016
  • Part:BBa K2027026
    ...maintain its structure. In response to heat, our hypothesis is that these water molecules are released from the beta barrel, thus allowing the barrel to co ...moproteins. Therefore, we hypothesized that in the exposed air system, the water molecules would not be trapped with the chromoproteins and we might see col
    36 KB (5,616 words) - 07:15, 28 October 2016
  • Part:BBa K2027027
    ...maintain its structure. In response to heat, our hypothesis is that these water molecules are released from the beta barrel, thus allowing the barrel to co ...moproteins. Therefore, we hypothesized that in the exposed air system, the water molecules would not be trapped with the chromoproteins and we might see col
    36 KB (5,616 words) - 07:12, 28 October 2016
  • Part:BBa K2027028
    ...maintain its structure. In response to heat, our hypothesis is that these water molecules are released from the beta barrel, thus allowing the barrel to co ...moproteins. Therefore, we hypothesized that in the exposed air system, the water molecules would not be trapped with the chromoproteins and we might see col
    36 KB (5,616 words) - 07:17, 28 October 2016
  • Part:BBa K2027029
    ...maintain its structure. In response to heat, our hypothesis is that these water molecules are released from the beta barrel, thus allowing the barrel to co ...moproteins. Therefore, we hypothesized that in the exposed air system, the water molecules would not be trapped with the chromoproteins and we might see col
    36 KB (5,616 words) - 07:17, 28 October 2016
  • Part:BBa K2027030
    ...maintain its structure. In response to heat, our hypothesis is that these water molecules are released from the beta barrel, thus allowing the barrel to co ...moproteins. Therefore, we hypothesized that in the exposed air system, the water molecules would not be trapped with the chromoproteins and we might see col
    36 KB (5,616 words) - 07:16, 28 October 2016
  • Part:BBa K2027031
    ...maintain its structure. In response to heat, our hypothesis is that these water molecules are released from the beta barrel, thus allowing the barrel to co ...moproteins. Therefore, we hypothesized that in the exposed air system, the water molecules would not be trapped with the chromoproteins and we might see col
    36 KB (5,616 words) - 07:16, 28 October 2016
  • Part:BBa K2027032
    ...maintain its structure. In response to heat, our hypothesis is that these water molecules are released from the beta barrel, thus allowing the barrel to co ...moproteins. Therefore, we hypothesized that in the exposed air system, the water molecules would not be trapped with the chromoproteins and we might see col
    36 KB (5,616 words) - 07:16, 28 October 2016
  • Part:BBa K2027033
    ...maintain its structure. In response to heat, our hypothesis is that these water molecules are released from the beta barrel, thus allowing the barrel to co ...moproteins. Therefore, we hypothesized that in the exposed air system, the water molecules would not be trapped with the chromoproteins and we might see col
    36 KB (5,616 words) - 07:16, 28 October 2016
  • Part:BBa K2027034
    ...maintain its structure. In response to heat, our hypothesis is that these water molecules are released from the beta barrel, thus allowing the barrel to co ...moproteins. Therefore, we hypothesized that in the exposed air system, the water molecules would not be trapped with the chromoproteins and we might see col
    36 KB (5,616 words) - 07:15, 28 October 2016

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