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  • Book
    Yuichi Hirase.
    Contents:
    Chapter 1 : Reconstruction of Upper Arm and Medial and Lateral Elbow
    Chapter 2 : Reconstruction of Forearm Region
    Chapter 3 : Reconstruction of Dorsum of Hand
    Chapter 4 : Degloving Injury
    Chapter 5 : Reconstruction of Palm and Wrist Area
    Chapter 6 : Reconstruction of First web space Area
    Chapter 7 : Reconstruction of Finger Trunk
    Chapter 8 : Reconstruction of Fingertip
    Chapter 9 : Toe Transfer
    Chapter 10 : Nail Reconstruction
    Chapter 11 : Reconstruction of Mediastinitis/ Pyothorax/ Abdominal Incisional Hernia
    Chapter 12 : Reconstruction of Inguinal Region
    Chapter 13 : Reconstruction of the Gluteal, Sacral, and Trochanteric Regions
    Chapter 14 : Patella Region Reconstruction
    Chapter 15 : Anterior lower leg reconstruction
    Chapter 16 : Reconstruction of Distal 1/3 of Lower Leg
    Chapter 17 : Reconstruction of Achilles Tendon Area
    Chapter 18 : Reconstruction of Calcaneal Region/ Lateral Plantar Region
    Chapter 19 : Reconstruction of the Plantar Forefoot
    Chapter 20 : Reconstruction of Dorsum and Amputated Foot Stump
    Chapter 21 : Reconstruction of Dorsum of Toes
    Chapter 22 : Nerve Transplant & Nerve Transfer
    Chapter 23 : Transplantation of Bone and Joints
    Chapter 24 : Fat graft
    Chapter 25 : Muscle graft.
    Digital Access Springer 2017
  • Article
    DeMoss JA.
    J Bacteriol. 1978 Feb;133(2):626-30.
    Five temperature-sensitive chlC mutants were isolated from Escherichia coli by the technique of localized mutagenesis. All of the mutants produced severely reduced levels of both nitrate reductase and formate dehydrogenase when grown at 43 degrees C. In three of the mutants, the nitrate reductase activity produced at the permissive temperature was shown to be thermolabile compared with the activity produced by the parent wild-type strain, both in membrane preparations and in preparations released from the membrane by deoxycholate. In each case, formate dehydrogenase activity was similar to the wild-type activity in its stability to heat. It is concluded that the chlC gene codes for at least one of the polypeptide chains of nitrate reductase and that the chlC mutations affect indirectly the formation of formate dehydrogenase.
    Digital Access Access Options