Multi-organ characterization of mitochondrial genomic rearrangements in ad libitum and caloric restricted mice show striking somatic mitochondrial DNA rearrangements with age

doi:10.1093/nar/25.5.974

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Table 1. Proton chemical shifts (p.p.m.) for aminoacylated adenosine derivatives

Adenosine 2'-O-anthraniloyl-adenosine 3'-O-anthraniloyl-adenosine 2'-O-anthraniloyl-AMP 3'-O-anthraniloyl-AMP

H1' 6.01 6.39 6.16 6.45 6.28

H2' 4.77 5.88 5.11 5.78 5.11

H3' 4.40 4.77 5.62 4.84 5.69

H4' 4.27 4.36 4.48 4.49 4.61

H5' 3.93 4.00 3.99 4.23 4.22

H5'' 3.82 3.89 3.93 4.19 4.18

H2 8.24 8.25 8.27 8.23 8.28

H8 8.36 8.42 8.40 8.63 8.64

H12 6.79 6.86 6.83 6.90

H13 7.33 7.37 7.38 7.43

H14 6.67 6.73 6.74 6.82

H15 7.93 8.03 7.92 8.07

Numbering of the atoms is defined in Figure 3.

Table 2. Vicinal spin-spin coupling constants ³J_HH of adenosine derivatives, given in Hz

Adenosine 2'-O-anthraniloyl-adenosine 3'-O-anthraniloyl-adenosine 2'-O-anthraniloyl-AMP 3'-O-anthraniloyl-AMP

J_1^'2^' 6.5 6.4 7.2 5.7 7.2

J_2^'3^' 5.1 5.5 5.5 5.4 5.9

J_3^'4^' 2.8 3.1 2.4 3.5 3.9

J_4^'5^' 2.6 2.5 2.5

J_4^'5^'' 2.9 2.9 2.7

J_5^'5^'' 12.8 12.7 12.7

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	Adenosine	2'-O-anthraniloyl-adenosine	3'-O-anthraniloyl-adenosine	2'-O-anthraniloyl-AMP	3'-O-anthraniloyl-AMP
H1'	6.01	6.39	6.16	6.45	6.28
H2'	4.77	5.88	5.11	5.78	5.11
H3'	4.40	4.77	5.62	4.84	5.69
H4'	4.27	4.36	4.48	4.49	4.61
H5'	3.93	4.00	3.99	4.23	4.22
H5''	3.82	3.89	3.93	4.19	4.18
H2	8.24	8.25	8.27	8.23	8.28
H8	8.36	8.42	8.40	8.63	8.64
H12		6.79	6.86	6.83	6.90
H13		7.33	7.37	7.38	7.43
H14		6.67	6.73	6.74	6.82
H15		7.93	8.03	7.92	8.07

				A. R. Heydari, A. Unnikrishnan, L. V. Lucente, and A. Richardson Caloric restriction and genomic stability Nucleic Acids Res., December 3, 2007; 35(22): 7485 - 7496. [Abstract] [Full Text] [PDF]

				H.-C. Lee and Y.-H. Wei Oxidative Stress, Mitochondrial DNA Mutation, and Apoptosis in Aging Experimental Biology and Medicine, May 1, 2007; 232(5): 592 - 606. [Abstract] [Full Text] [PDF]

				Y. Haruna, N. Kashihara, M. Satoh, N. Tomita, T. Namikoshi, T. Sasaki, T. Fujimori, P. Xie, and Y. S. Kanwar Amelioration of progressive renal injury by genetic manipulation of Klotho gene PNAS, February 13, 2007; 104(7): 2331 - 2336. [Abstract] [Full Text] [PDF]

				S. Rohrbach, S. Gruenler, M. Teschner, and J. Holtz The thioredoxin system in aging muscle: key role of mitochondrial thioredoxin reductase in the protective effects of caloric restriction? Am J Physiol Regulatory Integrative Comp Physiol, October 1, 2006; 291(4): R927 - R935. [Abstract] [Full Text] [PDF]

				G. C. Kujoth, A. Hiona, T. D. Pugh, S. Someya, K. Panzer, S. E. Wohlgemuth, T. Hofer, A. Y. Seo, R. Sullivan, W. A. Jobling, et al. Mitochondrial DNA Mutations, Oxidative Stress, and Apoptosis in Mammalian Aging Science, July 15, 2005; 309(5733): 481 - 484. [Abstract] [Full Text] [PDF]

				S. E. Schriner, N. J. Linford, G. M. Martin, P. Treuting, C. E. Ogburn, M. Emond, P. E. Coskun, W. Ladiges, N. Wolf, H. Van Remmen, et al. Extension of Murine Life Span by Overexpression of Catalase Targeted to Mitochondria Science, June 24, 2005; 308(5730): 1909 - 1911. [Abstract] [Full Text] [PDF]

				J. P. Jakupciak, W. Wang, M. E. Markowitz, D. Ally, M. Coble, S. Srivastava, A. Maitra, P. E. Barker, D. Sidransky, and C. D. O'Connell Mitochondrial DNA as a Cancer Biomarker J. Mol. Diagn., May 1, 2005; 7(2): 258 - 267. [Abstract] [Full Text] [PDF]

				S.-K. Park and T. A. Prolla Gene expression profiling studies of aging in cardiac and skeletal muscles Cardiovasc Res, May 1, 2005; 66(2): 205 - 212. [Abstract] [Full Text] [PDF]

				S. R. Atilano, P. Coskun, M. Chwa, N. Jordan, V. Reddy, K. Le, D. C. Wallace, and M. C. Kenney Accumulation of Mitochondrial DNA Damage in Keratoconus Corneas Invest. Ophthalmol. Vis. Sci., April 1, 2005; 46(4): 1256 - 1263. [Abstract] [Full Text] [PDF]

				C.-K. Lee, D. B. Allison, J. Brand, R. Weindruch, and T. A. Prolla Transcriptional profiles associated with aging and middle age-onset caloric restriction in mouse hearts PNAS, November 12, 2002; 99(23): 14988 - 14993. [Abstract] [Full Text] [PDF]

				N. D. Bodyak, E. Nekhaeva, J. Y. Wei, and K. Khrapko Quantification and sequencing of somatic deleted mtDNA in single cells: evidence for partially duplicated mtDNA in aged human tissues Hum. Mol. Genet., January 1, 2001; 10(1): 17 - 24. [Abstract] [Full Text] [PDF]

				J. Milano and B. J. Day A catalytic antioxidant metalloporphyrin blocks hydrogen peroxide-induced mitochondrial DNA damage Nucleic Acids Res., February 15, 2000; 28(4): 968 - 973. [Abstract] [Full Text] [PDF]

				M. R. Armstrong, V. C. Blok, and M. S. Phillips A Multipartite Mitochondrial Genome in the Potato Cyst Nematode Globodera pallida Genetics, January 1, 2000; 154(1): 181 - 192. [Abstract] [Full Text]

				L. A. Esposito, S. Melov, A. Panov, B. A. Cottrell, and D. C. Wallace Mitochondrial disease in mouse results in increased oxidative stress PNAS, April 27, 1999; 96(9): 4820 - 4825. [Abstract] [Full Text] [PDF]

				D. C. Wallace Mitochondrial Diseases in Man and Mouse Science, March 5, 1999; 283(5407): 1482 - 1488. [Abstract] [Full Text]

Nucleic Acids Research