Biology Reference
In-Depth Information
Lachner, M., O'Carroll, D., Rea, S., Mechtler, K., & Jenuwein, T. (2001). Methylation of
histone H3 lysine 9 creates a binding site for HP1 proteins.
Nature
,
410
, 116-120.
Lane, N., Dean, W., Erhardt, S., Hajkova, P., Surani, A., Walter, J., et al. (2003). Resistance
of IAPs to methylation reprogramming may provide a mechanism for epigenetic inher-
itance in the mouse.
Genesis
,
35
, 88-93.
Lehnertz, B., Northrop, J. P., Antignano, F., Burrows, K., Hadidi, S., Mullaly, S. C., et al.
(2010). Activating and inhibitory functions for the histone lysine methyltransferase G9a
in T helper cell differentiation and function.
The Journal of Experimental Medicine
,
207
,
915-922.
Lehnertz, B., Ueda, Y., Derijck, A. A., Braunschweig, U., Perez-Burgos, L., Kubicek, S., et al.
(2003). Suv39h-mediated histone H3 lysine 9 methylation directs DNA methylation to
major satellite repeats at pericentric heterochromatin.
Current Biology:CB
,
13
, 1192-1200.
Li, E., Beard, C., & Jaenisch, R. (1993). Role for DNA methylation in genomic imprinting.
Nature
,
366
, 362-365.
Liou, G. G., Tanny, J. C., Kruger, R. G., Walz, T., & Moazed, D. (2005). Assembly of the
SIR complex and its regulation by O-acetyl-ADP-ribose, a product of NAD-dependent
histone deacetylation.
Cell
,
121
, 515-527.
Liu, H., Kim, J.-M., & Aoki, F. (2004). Regulation of histone H3 lysine 9 methylation in
oocytes and early pre-implantation embryos.
Development (Cambridge, England)
,
131
,
2269-2280.
Loppin, B., Bonnefoy, E., Anselme, C., Laurencon, A., Karr, T. L., & Couble, P. (2005).
The histone H3.3 chaperone HIRA is essential for chromatin assembly in the male pro-
nucleus.
Nature
,
437
, 1386-1390.
Lu, J., &Gilbert, D. M. (2007). Proliferation-dependent and cell cycle regulated transcription
of mouse pericentric heterochromatin.
The Journal of Cell Biology
,
179
, 411-421.
Lu, S., Xie, Y. M., Li, X., Luo, J., Shi, X. Q., Hong, X., et al. (2009). Mass spectrometry
analysis of dynamic post-translational modifications of TH2B during spermatogenesis.
Molecular Human Reproduction
,
15
, 373-378.
Luff, B., Pawlowski, L., & Bender, J. (1999). An inverted repeat triggers cytosine methylation
of identical sequences in Arabidopsis.
Molecular Cell
,
3
, 505-511.
Luger, K., Dechassa, M. L., & Tremethick, D. J. (2012). New insights into nucleosome and
chromatin structure: An ordered state or a disordered affair?
Nature Reviews. Molecular Cell
Biology
,
13
, 436-447.
Luger, K.,Mader, A.W., Richmond, R. K., Sargent, D. F., &Richmond, T. J. (1997). Crystal
structure of the nucleosome core particle at 2.8 A resolution.
Nature
,
389
, 251-260.
Luo, K., Vega-Palas, M. A., & Grunstein, M. (2002). Rap1-Sir4 binding independent of
other Sir, yKu, or histone interactions initiates the assembly of telomeric heterochroma-
tin in yeast.
Genes & Development
,
16
, 1528-1539.
Maalouf, W. E., Liu, Z., Brochard, V., Renard, J. P., Debey, P., Beaujean, N., et al. (2009).
Trichostatin A treatment of clonedmouse embryos improves constitutive heterochromatin
remodeling as well as developmental potential to term.
BMC Developmental Biology
,
9
,11.
Maksakova, I. A., Mager, D. L., & Reiss, D. (2008). Keeping active endogenous retroviral-
like elements in check: The epigenetic perspective.
Cellular and Molecular Life Sciences
,
65
,
3329-3347.
Martens, J. H., O'Sullivan, R. J., Braunschweig, U., Opravil, S., Radolf, M., Steinlein, P.,
et al. (2005). The profile of repeat-associated histone lysine methylation states in the
mouse epigenome.
The EMBO Journal
,
24
, 800-812.
Martienssen, R. A., Kloc, A., Slotkin, R. K., & Tanurdzic, M. (2008). Epigenetic inheritance
and reprogramming in plants and fission yeast.
Cold Spring Harbor Symposia on Quantitative
Biology
,
73
, 265-271.
