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12. Manavski, N., Torabi, S., Lezhneva, L., Arif, M.A., Frank, W., Meurer, J. (2015) HCF145 binds to and stabilizes the psaA 5’ UTR via a newly defined repeat motif in embryophyta. Plant Cell 27, 2600-2615.

11. Hiss, M., Laule, O., Meskauskiene, R.M., Arif, M.A., Decker, E.L., Erxleben, A., Frank, W., Hanke, S.T., Lang, D., Martin, A., Neu, C., Reski, R., Richardt, S., Schallenberg-Rüdinger, M., Szövényi, P., Tiko, T., Wiedemann, G., Wolf, L., Zimmermann, P., Rensing, S.A. (2014) Large scale gene expression profiling data of the model moss Physcomitrella patens help to understand developmental progression, culture and stress conditions. Plant Journal, DOI: 10.1111/tpj.12572.

10. Heeringen, S.J. van, Akkers, R.C., Kruijsbergen, I.Van., Arif, M.A., Hanssen, L.L.P., Sharifi, N., Veenstra, G.J.C. 2014. Principles of nucleation of H3K27 methylation during embryonic development. Genome Research, 24, 401-410 (doi: 10.1101/gr.159608.113).

9. Arif, M.A., Frank, W., Khraiwesh, B. (2013) Role of RNA interference (RNAi) in the moss Physcomitrella patens. International Journal of Molecular Sciences 14, 1516-1540.

8. Arif, M.A., Fattash, I., Ma, Z., Cho, S.H., Beike, A.K., Reski, R., Axtell, M.J., Frank, W. (2012) DICER-LIKE3 activity in Physcomitrella patens DICER-LIKE4 mutants causes severe developmental dysfunction and sterility. Molecular Plant 5, 1281-1294.

7. Fattash, I., Khraiwesh, B., Arif, M.A., Frank, W. (2012) Expression of artificial microRNAs in Physcomitrella patens. Methods in Molecular Biology 847, 293-315.

6. Arif, M.A., Fattash, I., Khraiwesh, B., Frank, W. (2011) Physcomitrella patens small RNA pathways. In Non-coding RNAs in Plants, Eds. Erdmann, V.A., Barciszewski, J., Springer RNA Technologies (DOI: 10.1007/978-3-642-19454-2_10), 139-173.

5. Hussain, S.S., Iqbal, M.T., Arif, M.A., Amjad, M. (2011) Beyond osmolytes and transcription factors: drought tolerance in plants via protective proteins and aquaporins. Biologia Plantarum 55, 401-413

4. Khraiwesh, B., Fattash, I., Arif, M.A., Frank, W. (2011) Gene function analysis by artificial microRNAs in Physcomitrella patens. Methods in Molecular Biology 744, 57-79.

3. Khraiwesh, B., Arif, M.A., Seumel, G.I., Ossowski, S., Weigel, D., Reski, R., Frank, W. (2010) Transcriptional control of gene expression by microRNAs. Cell 140, 111-122.

2. Cho, S.H., Addo-Quaye, C., Coruh, C., Ma, Z., Arif, M.A., Ma, Z., Frank, W., Axtell, M. J. (2008) Physcomitrella patens DCL3 is required for 22-24nt siRNA accumulation, suppression of retrotransposon-derived transcripts, and normal development. PLoS Genetics 4, e1000314

1. Arif, M.A., Ramzan, M., Ahmad, K., Shehzad, M., Swati, MS., and Ali, W. (2004): Correlation study of different yield-associated traits in wheat (Triticum aestivum L.). Biologia (PK): 50(1), 51-57