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Patates Kültürlerinde Virus Dirençliliği: Patojen Köken Viral Dirençlilik Üzerine Strateji Belirlemesi

Virus Resistance in Potato Cultivars: A Review on The Use of Pathogen-Derived Resistance Strategies as a Tool

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Abstract (2. Language): 
Potato has always been a subject of extensive research owing to its importance as a food crop; being used as staple in many localities. Among various pathogens, viruses provide a continuous threat to potato. Pathogen-derived resistance (PDR) has mainly been employed to engineer potato to confer resistance against viruses. Many different strategies of pathogen-derived resistance have been utilized including protein-mediated resistance, and nucleic acid-mediated resistance (DNA/RNA) involving transcriptional and posttranscriptional gene silencing. This review provides an insight into the past, discusses situation at present, and gives important suggestions for future implications of these strategies for the improvement of this crop.
Abstract (Original Language): 
Patates önemli bir gıda ürünü olmasından ötürü daima pek çok bölgede geniş araştırma konularına sahiptir. Çeşitli patojenler arasında virüsler patateste devamlı bir tehdit unsurudur. Virüslere karşı dirençliliği arttırmamıza yönelik Patojen türevli direnç (PTD) uygulaması yapılmaktadır. Pek çok PTD üretim stratejisi kullanılmaktadır. Bunlar arasında transkripsiyonal ve post transkripsiyonal gen susturuculu protein ilişkili direnç, nukleotid ilişkili direnç (DNA/RNA) gelmektedir. Bu derleme patates bitkisinde, konunun tartışılmasında geçmiş ve geleceğe ilişkin yaklaşımlara ışık tutmaktadır.
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REFERENCES

References: 

Ali A., Hassan S and Asad A., 2002. Incidence of six potato
viruses in spring, summer and autumn potato crops of
the North West Frontier Province of Pakistan.
Australasian Plant Pathology, 31: 143-146.
Allison RF., Schneider WL and Greene AE., 1996.
Recombination in plants expressing viral transgenes.
Seminars in Virology, 7: 417-422.
Arif M., Thomas PE., Crosslin JM and Brown CR., 2009a.
Agrobacterium-mediated transformation of potato
using PLRV-REP and PVY-CP genes and assessment of
replicase-mediated resistance against natural infection
of PLRV. Pakistan Journal of Botany, 41(3): 1477-1488.
Arif M., Thomas PE., Crosslin JM and Brown CR., 2009b.
Development of molecular resistance in potato against
potato leafroll virus and potato virus Y through
Agrobacterium-mediated double transgenesis.
Pakistan Journal of Botany, 41(2): 945-954.
Arif M., Azhar U., Arshad M., Zafar Y., Mansoor S and Asad
S., 2012. Engineering broad-spectrum resistance
against RNA viruses in potato. Transgenic Research, 21:
303-311.
Bai Y., Guo Z., Wang X., Bai D and Zhang W., 2009.
Generation of double-virus-resistant marker-free
transgenic potato plants. Progress in Natural Science,
19: 543-548.
Barker H., Reavy B., Kumar A., Webster KD and Mayo MA.,
1992. Restricted virus multiplication in potatoes
transformed with the coat protein gene of potato
leafroll luteovirus: similarities with a type of host genemediated
resistance. Annals of Applied Biology, 120:
55-64.
Bartel DP., 2004. MicroRNAs: genomics, biogenesis,
mechanism, and function. Cell, 116: 281-297.
Baulcombe DC., 1996. Mechanisms of pathogen-derived
resistance to viruses in transgenic plants. Plant Cell, 8:
1833-1844.
Beachy RN., 1997. Mechanisms and applications of
pathogen-derived resistance in transgenic plants.
Current Opinions in Biotechnology, 8: 215-220.
Beachy RN., 1999. Coat protein-mediated resistance to
tobacco mosaic virus: discovery mechanisms and
exploitation. Philosophical Transactions of Royal
Society London, 354: 659-664.
Bostan H and Haliloglu K., 2004. Distribution of PLRV, PVS,
PVX and PVY (PVYN, PVYO and PVYC) in the seed
potato tubers in Turkey. Pakistan Journal of Biological
Sciences 7: 1140-1143.
Bucher E., Lohuis D., Van Poppel PMJA., Geerts-
Dimitriadou C., Goldbach R and Prins M., 2006.
Multiple virus resistance at a high frequency using a
single transgene construct. Journal of General Virology,
87: 3697-3701.
Carr JP., Marsh JE., Lomonossoff GP., Sekiya ME and Zaitlin
M., 1992. Resistance to TMV induced by the 54 kDa
gene sequences requires expression of the 54 kDa
protein. Molecular Plant-Microbe Interactions, 5: 397-
404.
Cheong EJ., Mock R and Li RH., 2012. Elimination of five
viruses from sugarcane using in vitro culture of axillary
buds and apical meristems. Plant Cell Tissue Organ
Culture, 109: 439-445.
Chung BN., Yoon J and Palukaitis P., 2013. Engineered
resistance in potato against potato leafroll virus, potato
virus A and potato virus Y. Virus Genes, 47: 86-92.
de Haan P., Gielen JJL., Prins M., Wijkamp IG., van Schepen
A., Peters D., Van Grinsven MQJM and Goldbach R.,
1992. Characterization of RNA-mediated resistance to
tomato spotted wilt virus in transgenic tobacco plants.
Biotechnology, 10: 1133-1137.
Denli AM and Hannon GJ., 2003. RNAi: an ever-growing
puzzle. Trends in Biochemical Sciences, 28: 196-201.
Doreste V., Ramos EL., Enrfquez GA., Rodrfguez R., Peral R
and Pujol M., 2002. Transgenic potato plants
expressing the potato virus X (PVX) coat protein gene
developed resistance to the viral infection.
Phytoparasitica, 30(2): 177-185.
Ehrenfeld N., Romano E., Serrano C and Arce-Johnson P.,
2004. Replicase-mediated resistance against potato
leafroll virus in potato Desiree plants. Biological
Rabia and Qazi, Virus Resistance in Potato Cultivars: A Review on The Use of Pathogen-Derived Resistance Strategies as a
Tool
114
Research, 37: 71-82.
Faccioli G., 2001. Control of potato viruses using meristem
culture and stem-cutting cultures, thermotherapy and
chemotherapy. p. 365-390. Virus and Virus-Like
Diseases of Potatoes and Production of Seed-Potatoes
(Eds. G. Loebenstein, PH. Berger, A Brunt and RH
Lawson), Kluwer. Dordrecht.
FAO 2011. FAOSTAT: Production-Crops, 2010 data. Food
and Agriculture Organization of the United Nations.
Fuchs M and Gonsalves D., 1995. Resistance of transgenic
hybrid squash ZW-20 expressing the coat protein
genes of zucchini yellow mosaic virus and watermelon
mosaic virus 2 to mixed infections by both potyviruses.
Nature Biotechnology, 13: 1466-1473.
Fuchs M., McFerson JR., Tricoli DM., McMaster JR., Deng
RZ., Boeshore ML., Reynolds JF., Russell PF., Quemada
HD and Gonsalves D., 1997. Cantaloupe line CZW-30
containing coat protein gene of cucumber mosaic
virus, zucchini yellow virus and water melon mosaic
virus 2 is resistant to these three viruses in the field.
Molecular Breeding, 3: 279-290.
Golemboski DB., Lomonossoff GP and Zaitlin M., 1990.
Plants transformed with a tobacco mosaic virus nonstructural
gene sequence are resistant to the virus.
Proceedings of the National Academy of Sciences of
the United States of America, 87: 6311-6315.
Gong XQ and Liu JH., 2012. Genetic transformation and
genes for resistance to abiotic and biotic stresses in
citrus and its related genera. Plant Cell Tissue Organ
Culture, 113(2): 137-147.
Hassairi A., Masmoudi K., Albouy J., Robaglia C., Jullien M
and Ellouz R., 1998. Transformation of two potato
cultivars 'Spunta' and 'Clauster' (Solanum tuberosum)
with lettuce mosaic coat protein gene and
heterologous immunity to potato virus Y. Plant Science,
136: 31-42.
Hefferon KL., Khalilian H and AbouHaidar MG., 1997.
Expression of the PVYO coat protein (CP) under the
control of the PVX CP gene leader sequence:
protection under greenhouse and field conditions
against PVYO and PVYN infection in three potato
cultivars. Theoretical and Applied Genetics, 94: 287-
292.
Hoekema A., Huisman MJ., Molendijk L., van den Elzen PJM
and Cornelissen BJC., 1989. The genetic engineering of
two commercial potato cultivars for resistance to
potato virus X. Nature Biotechnology, 7: 273-278.
Hossain M., Ali MS and Rashid MM., 1994. Effect of
inoculum levels of potato virus Y (PVY) on yield and
subsequent spread of the disease under insecticide
spray and unsprayed condition. Bangladesh Journal of
Botany, 23: 87.
Huimin Xu., Houri K., Mohamed E., Sam S and Mounir G.,
1995. Genetically engineered resistance to potato virus
X in four commercial potato cultivars. Plant Cell
Reports, 15: 91-96.
Hutvagner G and Zamore PD., 2002. RNAi: nature abhors a
double-strand. Potato Biology and Biotechnology:
Advances and Perspectives (Ed. D. Vreugdenhil),
Elsevier, pp. 225-232.
Jayasinghe U and Salazar LF., 1998. Present status of
controlling potato leafroll virus. Plant Virus Disease
Control. (Eds. A Hadidi, RK Khetarpal and H
Koganezawa), Minnesota Press, pp. 584-592.
Jeffries C., Barker H and Khurana SMP., 2005. Potato
viruses (and viroids) and their management. Potato
Production, Improvement and Post-Harvest
Management. The Haworth’s Food Products Press, New
York.
Kamachi S., Mochizaki A., Nishiguch M and Tabei Y., 2007.
Transgenic Nicotiana benthamiana plants resistant to
cucumber green mottle mosaic virus based on RNA
silencing. Plant Cell Reports, 26: 1283-1288.
Kaniewski W., Lawson C., Sammons B., Haley L., Hart J and
Delannay X., 1990. Field resistance of transgenic Russet
Burbank potato to effects of infection by potato virus X
and potato virus Y. Biotechnology, 8: 750-754.
Kawchuk LM., Lyncha DR., Martinb RR., Kozuba GC and
Farriesa B., 1997. Field resistance to potato leafroll
luteovirus in transgenic and somaclone potato plants
reduces tuber disease symptoms. Canadian Journal of
Plant Pathology, 19(3): 260-266.
Kawchuk LM., Martin RR and McPherson J., 1990.
Resistance in transgenic potato expressing the potato
leafroll virus coat protein gene. Molecular Plant-
Microbe Interactions, 3(5): 301-307.
Kawchuk LM., Martin RR and McPherson., 1991. Sense and
antisense RNA-mediated resistance to potato leafroll
virus in Russet Burbank potato plants. Molecular Plant-
Microbe Interactions, 4(3): 247-253.
Kojima M and Lapierre H., 1988. Potato leafroll virus
(PLRV). European Handbook of Plant Diseases (Eds. IM
Smith, DH Phillips, RA Lelliot and SA Archer), Blackwell
Scientific Publications, pp. 23-24.
Lawson C., Kaniewski W., Haley L., Rozman R., Newell C
and Sanders P., 1990. Engineering resistance to mixed
virus infection in a commercial potato cultivar:
resistance to potato virus X and potato virus Y in
transgenic Russet Burbank. Biotechnology, 8: 127-134.
Lawson EC., Weiss JD., Thomas PE and Kaniewski WK.,
2001. NewLeaf Plus® Russet Burbank potatoes:
replicase-mediated resistance to potato leafroll virus.
Molecular Breeding, 7(1): 1-12.
Loebenstein G., Berger PH., Brunt A and Lawson R., 2001.
Virus and virus-like diseases of potatoes and
production of seed-potatoes. Kluwer, Dordrecht.
MacFarlane SA and Davies JW., 1992. Plants transformed
with a region of the 201KDa replicase gene from pea
early browning virus RNA1 are resistant to virus
infection. Procedings of National Academy of Scientists
of the United States of America, 89: 5829-5833.
MacKenzie DJ., Tremaine JH and Mcpherson J., 1991.
Genetically engineered resistance to potato virus S in
potato cultivar Russet Burbank. Molecular Plant-
Microbe Interactions, 4(1): 95-102.
MacKenzie DJ., Tremaine JH and Stace-Smith R., 1989.
Rabia and Qazi, Virus Resistance in Potato Cultivars: A Review on The Use of Pathogen-Derived Resistance Strategies as a
Tool
115
Organization and interviral homologies of the 3'-
terminal portion of potato virus S RNA. Journal of
General Virology, 70: 1053-1063.
Maki-Valkama T., Valkonen JPT., Lehtinen A and Pehu E.,
2001. Protection against potato virus Y (PVY) in the
field in potatoes transformed with the PVY P1 gene.
American Journal of Potato Research, 78: 209-214.
Maki-Valkama T., Valkonen JPT., Kreuze JF and Pehu E.,
2000. Transgenic resistance to PVY associated with
post-transcriptional silencing of P1 transgene is
overcome by PVY N strains that carry highly
homologous P1 sequences and recover transgene
expression at infection. Molecular Plant-Microbe
Interactions, 13(4): 366-373.
Malnoe P., Farinelli L., Collet GF and Reust W., 1994. Smallscale
field tests with transgenic potato, cv. Bintje, to
test resistance to primary and secondary infections
with potato virus Y. Plant Molecular Biology, 25(6): 963-
975.
Missiou A., Kalantidis K., Boutla A., Tzortzakaki S., Tabler M
and Tsagris M., 2004. Generation of transgenic potato
plants highly resistant to potato virus Y (PVY) through
RNA silencing. Molecular Breeding, 14: 185-197.
Monci F., Sanchez-Campos S., Navas-Castillo J and
Moriones E., 2002. A natural recombinant between the
Gemini-viruses tomato yellow leaf curl Sardinia virus
and tomato yellow leaf curl virus exhibits a novel
pathogenic phenotype and is becoming prevalent in
Spanish populations. Virololgy Journal, 303: 317-326.
Murray SL., Thompson G., Visser A and Berger DK., 2002.
Transgenic potatoes (cv. Late Harvest) show increased
tolerance to potato leafroll virus in greenhouse and
field trials. South African Journal of Science, 98.
Nelson R., Mc Cormick SM., Delannay X., Dube P and
Layton J., 1988. Virus tolerance, plant growth and field
performance of transgenic tomato plants expressing
the coat protein from tobacco mosaic virus.
Biotechnology, 6: 403-409.
Nicola-Negri E., Brunetti A., Tavazza M and Ilardi V., 2005.
Hairpin RNA-mediated silencing of plum pox virus P1
and HC-pro genes for efficient and predictable
resistance to the virus. Transgenic Research, 14: 989-
994.
Niu QW., Lin SS., Reyes JL., Chen KC., Wu HW., Yeh SD and
Chua NH., 2006. Expression of artificial microRNAs in
transgenic Arabidopsis thaliana confers virus
resistance. Nature Biotechnology, 24: 1420-148.
Novy RG., Gillen AM and Whitworth JL., 2007.
Characterization of the expression and inheritance of
potato leaf roll virus (PLRV) and potato virus Y (PVY)
resistance in three generations of germplasm derived
from Solanum tuberosum. Theoretical and Applied
Genetics, 114: 1161-1172.
Okamoto D., Nielsen SVS., Albrechtsen M and Borkhardt
B., 1996. General resistance against potato virus Y
introduced into a commercial potato cultivar by
genetic transformation with PVYN coat protein gene.
Potato Research, 39(2): 271-282.
Pehu TM., Maki-Valkama TK., Valkonen JPT., Koivu KT and
Lehto KM., 1995. Potato plants transformed with a
potato virus Y P1 gene sequence are resistant to PVYO.
American Journal of Potato Research, 72: 523-532.
Powell PA., Stark DM., Sanders PR and Beachy RN., 1989.
Protection against tobacco mosaic virus in transgenic
plants that express tobacco mosaic virus antisense
RNA. Proceedings of National Academy of Sciences, 86:
6949-6952.
Powell-Abel P., Nelson RS., Hoffmann NDB., Rogers SG.,
Fraley RT and Beachy RN., 1986. Delay of disease
development in transgenic plants that express the
tobacco mosaic virus coat protein gene. Science, 232:
738-743.
Presting GG., Smith OP and Brown CR., 1995. Resistance to
potato leafroll virus in potato plants transformed with
a coat protein gene or with vector control constructs.
Phytopathology, 85(4).
Prins M., Laimer M., Noris E., Schubert J., Wassenegger M
and Tepfer M., 2008. Strategies for antiviral resistance
in transgenic plants. Molecular Plant Pathology, 9(1):
73-83.
Prins M., de Haan P., Luyten R., van Veller M., van Grinsven
MQJM and Goldbach R., 1995. Molecular Plant-
Microbe Interactions, 8: 85-91.
Raben A., Tagliabue A., Christensen NJ., Madsen J., Holst JJ
and Astrup A., 1994. Resistant starch: the effect on
postprandial glycemia, hormonal response, and satiety.
American Journal of Clinical Nutrition, 60: 544-551.
Racman DS.,Mcgeachy K., Reavy B., Strukelj B., Zel J and
Barker H., 2001. Strong resistance to potato tuber
necrotic ringspot disease in potato induced by
transformation with coat protein gene sequences from
an NTN isolate of Potato virus Y. Annals of Applied
Biology, 139(2): 269-275.
Rahman MS and Akandaw AM., 2009. Performance of seed
potato produced from sprout cutting, stem cutting and
conventional tubers against PVY and PLRV. Bangladesh
Journal of Agricultural Research, 34: 609-622.
Ratcliff F., Harrison BD and Baulcombe DC., 1997. A
similarity between viral defense and gene silencing in
plants. Science, 276: 1558-1560.
Romano E., Ferreira AT., Dusi AN., Proite K., Buso JA., Avila
AC., Nishijima ML., Nascimento AS., Bravo-Almonacid
F., Mentaberry A., Monte D., Campos MA., Melo PE.,
Cattony MK and Torres AC., 2001. Extreme resistance
to two Brazilian strains of Potato virus Y (PVY) in
transgenic potato, cv. Achat, expressing the PVYO coat
protein. Horticultura Brasileira, 19(2): 118-122.
Roux L., Simon AE and Holland JJ., 1991. Effects of
defective interfering viruses on virus replication and
pathogenesis. Advances in Virus Research, 40: 181-210.
Rovere CV., Asurmendi S and Hopp HE., 2001. Transgenic
resistance in potato plants expressing potato leaf roll
virus (PLRV) replicase gene sequences is RNAmediated
and suggests the involvement of posttranscriptional
gene silencing. Archives of Virology,
146: 1337-1353.
Rabia and Qazi, Virus Resistance in Potato Cultivars: A Review on The Use of Pathogen-Derived Resistance Strategies as a
Tool
116
Rubio T., Borja M., Scholthof HB and Jackson AO., 1999.
Recombination with host transgenes and effects on
virus evolution: An overview and opinion. Molecular
Plant-Microbe Interactions, 12: 87-92.
Salazar L., 2003. Potato viruses after the XX century effects,
dissemination and their control.
Schubert J., Matousek J and Mattern D., 2004. Pathogenderived
resistance in potato to Potato virus Y-aspects
of stability and biosafety under field conditions. Virus
Research, 100: 41-50.
Sijen T., Wellenk J., Hendriks J., Verner J and van Kammen
A., 1995. Replication of cowpea mosaic virus RNA1 or
RNA2 is specifically blocked in transgenic Nicotiana
benthamiana plants expressing the full-length replicase
or movement protein genes. Molecular Plant-Microbe
Interactions, 8: 340-347.
Simon-Mateo C and Garcia JA., 2011. Antiviral strategies in
plants based on RNA silencing. Biochimica et
Biophysica Acta, 1809: 722-731.
Smith NA., Singh SP., Wang MB., Stoutjesdijk PA., Green
AG and Waterhouse PM., 2000. Gene expression: total
silencing by intron-spliced hairpin RNAs. Nature, 407:
319-320.
Spillane C., Baulcombe DC and Kavanagh TA., 1998.
Genetic engineering of the potato cultivar Glenroe for
increased resistance to potato virus X (PVX). Irish
Journal of Agricultural and Food Research, 37: 173-182.
Stashevskia Z and Il’inskayab ON., 2011. Virus resistance of
transgenic potato plants (Solanum tuberosum L.)
bearing PVYNTN CP gene of potato virus Y coat
protein. Russian Journal of Genetics, 1(2): 103-111.
Suszkin J., 2008. Aphid pest gets "egged". Agricultural
Research, 56(5): 19.
Szittya G., Silhavy D., Molnar A., Havelda Z., Lovas A.,
Lakatos L., Banfalvi Z and Burgyan J., 2003. Low
temperature inhibits RNA silencing-mediated defense
by the control of siRNA generation. EMBO Journal, 22:
633-640.
Tanzer MM., Thompson WF., Law MD., Wernsman EA and
Uknes S., 1997. Characterization of posttranscriptionally
suppressed transgene expression that
confers resistance to TEV infection in tobacco. Plant
Cell, 9: 1411-1423.
Tepfer M., 1993. Viral genes and transgenic plants.
Biotechnology, 11: 1125-1132.
Thomas PE., Lawson EC., Zalewski JC., Reed GL and
Kaniewski WK., 2000. Extreme resistance to potato
leafroll virus in potato cv. Russet Burbank mediated by
the viral replicase gene. Virus Research, 71: 49-62.
Thomas PE., Kaniewski WK and Lawson EC., 1997. Reduced
field spread of potato leafroll virus in transgenic
potatoes expressing the potato leafroll virus coat
protein gene. Plant Disease, 81(12): 1447-1453.
Tijsterman M., Ketting RF and Plasterk RH., 2002. The
genetics of RNA silencing. Annual Review of Genetics,
36: 489-519.
Tricoli DM., Carney KJ., Russell PF., McMaster JR., Groff
DW., Hadden KC., Himmel PT., Hubbard JP., Boeshore
ML and Quemada HD., 1995. Field evaluation of
transgenic squash containing single or multiple virus
coat protein gene constructs for resistance to
cucumber mosaic virus, watermelon mosaic virus 2,
and zucchini yellow mosaic virus. Nature
Biotechnology, 13: 1458-1465.
Valkonen JPT., 2007. Viruses: economical losses and
biotechnological potential. p. 619-641.
vander Wilk F., Willink DP., Huisman MJ., Huttinga H and
Goldbach R., 1991. Expression of the potato leafroll
luteovirus coat protein gene in transgenic potato
plants inhibits viral infection. Plant Molecular Biology,
17(3): 431-439.
Vaucheret H and Fagard M., 2001. Transcriptional gene
silencing in plants: targets, inducers and regulators.
Trends in Genetics, 17: 29-35.
Wang B., Ma YL., Zhang ZB., Wu ZM., Wu WF., Wang QC
and Li MF., 2011. Potato viruses in China. Crop
Protection, 30: 1117-1123.
Wang MB., Abbott DC and Waterhouse PM., 2000. A single
copy of a virus-derived transgene encoding hairpin
RNA gives immunity to barley yellow dwarf virus.
Molecular Plant Pathology, 1: 347-356.
Wang-Pruski G and Schofield A., 2012. Potato: improving
crop productivity and abiotic stress tolerance,
improving crop resistance to abiotic stress. Wiley-VCH
Verlag GmbH and Co. K Ga A.
Waterhouse PM and Helliwell CA., 2003. Exploring plant
genomes by RNA-induced gene silencing. Nature
Reviews Genetics, 4: 29-38.
Xu H., Khalilian H., Eweida M., Squire S and Abou Haidar
MG., 1995. Genetically engineered resistance to potato
virus X in four commercial cultivars. Plant Cell Reports,
15: 91-96.
Zhang HL., Peng XX., Song YR., Li TR., Meng Q., Li C and
Cui XJ., 1997. Resistance to mixed PVY and PLRV
infection in potato cultivars expressing dual PVY and
PLRV coat protein genes. Acta Botanica Sinica, 39(3):
236-240.
Zhang ZY., Wang YG., Shen XJ., Li L., Zhou SF., Li WC and
Fu FL., 2013. RNA interference-mediated resistance to
maize dwarf mosaic virus. Plant Cell Tissue Organ
Culture, 113: 571-578.

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