References
- Abd-Elsalam KA (2003) Bioinformatic tools and guideline for PCR primer design. African J Biot 2:91-95 https://doi.org/10.5897/AJB2003.000-1019
- Bai SN, Xu ZH (2013) Unisexual cucumber flowers, sex and sex differentiation. Int Rev Cell Mol Biol 304:1-48
- Chen JC, Chiu MH, Nie RL, Cordell GA, Qiu SX (2005) Cucurbitacins and cucurbitane glycosides: structures and biological activities. Nat Pro Rep 22:386-399 https://doi.org/10.1039/b418841c
- Girek Z, Prodanovic S, Zdravkovic J, Zivanovic T, Ugrinovic M, Zdravkovic M (2013) The effect of growth regulators on sex expression in melon (Cucumis melo L.). Crop Breed App Biot 13:165-171 https://doi.org/10.1590/S1984-70332013000300003
- Gu HT, Wang DH, Li X, He CX, Xu ZH, Bai SN (2011) Characterization of an ethylene-inducible, calcium-dependent nuclease that is differentially expressed in cucumber flower development, New Phyto 192:590-600 https://doi.org/10.1111/j.1469-8137.2011.03825.x
- Ikram MMM, Esyanti RR, Faizal A (2015) The effect of photoperiodism with led light on productivity of female flower in cucumber (Cucumis sativus L.). MATTER: Int J Sci Tech Special Issue 1:24-34 https://doi.org/10.20319/mijst.2016.s11.2434
- Indonesia Ministry of Agriculture (2016) Produksi Hortikultura Saat Ini. http://aplikasi.pertanian.go.id/bdsp/index.asp
- Johnson H Jr. (2008) Fruit set problems in squash, melons, and cucumbers in home gardens, Cooperative Extension, Division of Agricultural Sciences, Leaflet 21242, University of California, pp. 1-2
- Lee DH, Iwanski GB, Thoennissen NH (2010) Cucurbitacin: ancient compound shedding new light on cancer treatment. Sci World J 10:413-418 https://doi.org/10.1100/tsw.2010.44
- Manzano S, Aguado E, Martinez C, Megias Z, Garcia A, Jamilena M (2016) The ethylene biosynthesis gene CitACS4 regulates monoecy/andromonoecy in watermelon (Citrullus lanatus). PLoS ONE 11:1-16
- Mason MG, Ross JJ, Babst BA, Wienclaw BN, Beveridge CA (2014) Sugar demand, not auxin, is the initial regulator of apical dominance. PNAS 16:6092-6097
- Mayorazaki F, Esyanti RR, Faizal A (2015) Enhancement of photosynthetic rate through photoperiod using LED in cucumber (Cucumis sativus L.). MATTER: Int J Sci Tech Special Issue 1:1-12
- Miao M, Yang X, Han X, Wang K (2010) Sugar signaling is involved in the sex expression response of monoecious cucumber to low temperature. J Exp B pp. 1-8
- Pessarakli M (2016) Handbook of Cucurbits : Growth, Cultural practices, and Physiology. CRC Press, New York, USA. pp. 1-237
- Reece JB, Taylor MR, Simon EJ, Dickey JL (2012) Campbell Biology : Concept & Connection 7th Edition. Pearson, San Fransisco, USA. pp. 1-777
- Savonen C (2003) What are short day and long day plants?. Oregon State University Extension Service
- Scout J, Myers J (2010) Cucumber Bitterness Explained. Oregon State University Extension Service
- Shedden K, Cooper S (2002) Analysis of cell-cycle-specific gene expression inhuman cells as determined by microarrays and double-thymidine block synchronization. PNAS. 99:4379-4384 https://doi.org/10.1073/pnas.062569899
- Taiz L, Zeiger E (2010) Plant Physiology 5th edition. Sunderland, Sinauer. pp. 1-675
- Wang DH, Li F, Duan QH, Han T, Xu ZH, Bai SN (2010) Ethylene perception is involved in female cucumber flower development. The Plant J 61:862-897 https://doi.org/10.1111/j.1365-313X.2009.04114.x
- Yamasaki S, Fujii N, Takahashi H (2003) Photoperiodic regulation of CS-ACS2, CS-ACS4, and CS-ERS gene expression contributes to the femaleness of cucumber flowers through diurnal ethylene production under short-day conditions. Plant Cell Env 26:537-546 https://doi.org/10.1046/j.1365-3040.2003.00984.x
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