Items where Subject is "inflorescence"

Group by: Authors | Item Type
Jump to: B | E | G | H | J | K | L | P | S | T | V | X | Y | Z
Number of items at this level: 31.

B

Bommert, P., Nagasawa, N. S., Jackson, D. (March 2013) Quantitative variation in maize kernel row number is controlled by the FASCIATED EAR2 locus. Nature Genetics, 45 (3). pp. 334-337. ISSN 1061-4036

Bommert, P., Satoh-Nagasawa, N., Jackson, D. P., Hirano, H.Y. (January 2005) Genetics and evolution of inflorescence and flower development in grasses. Plant Cell Physiol, 46 (1). pp. 69-78. ISSN 0032-0781 (Print)

Bortiri, E., Chuck, G., Vollbrecht, E., Rocheford, T. R., Martienssen, R. A., Hake, S. (March 2006) ramosa2 encodes a LATERAL ORGAN BOUNDARY domain protein that determines the fate of stem cells in branch meristems of maize. Plant Cell, 18 (3). pp. 574-585. ISSN 10404651

E

Eveland, A. L., Goldshmidt, A., Pautler, M., Morohashi, K., Liseron-Monfils, C., Lewis, M. W., Kumari, S., Hiraga, S., Yang, F., Unger-Wallace, E., Olson, A., Hake, S., Vollbrecht, E., Grotewold, E., Ware, D., Jackson, D. (2014) Regulatory modules controlling maize inflorescence architecture. Genome Research, 24 (3). pp. 431-443. ISSN 1088-9051

G

Gallavotti, A., Barazesh, S., Malcomber, S., Hall, D., Jackson, D. P., Schmidt, R. J., McSteen, P. (2008) sparse inflorescence1 encodes a monocot-specific YUCCA-like gene required for vegetative and reproductive development in maize. Proceedings of the National Academy of Sciences of the United States of America, 105 (39). pp. 15196-201. ISSN 0027-8424

H

Harris, James Arthur (December 1912) Biometric data on the inflorescence and fruit of Crinum longifolium. Missouri Botanical Garden Annual Report, 1912. pp. 75-99.

Harris, James Arthur (December 1909) Correlation in the inflorescence of Celastrus scandens. Missouri Botanical Garden Annual Report, 1909. pp. 116-122.

Harris, James Arthur (December 1909) The correlation between length of flowering-stalk and number of flowers per inflorescence in Nothoscordum and Allium. Missouri Botanical Garden Annual Report, 1909. pp. 105-115.

Hendelman, Anat, Zebell, Sophia, Rodriguez-Leal, Daniel, Dukler, Noah, Robitaille, Gina, Wu, Xuelin, Kostyun, Jamie, Tal, Lior, Wang, Peipei, Bartlett, Madelaine E, Eshed, Yuval, Efroni, Idan, Lippman, Zachary B (April 2021) Conserved pleiotropy of an ancient plant homeobox gene uncovered by cis-regulatory dissection. Cell, 184 (7). 1724-1739.e16. ISSN 0092-8674

Huang, Xiaozhen, Tang, Lingli, Yu, Yuan, Dalrymple, Justin, Lippman, Zachary B., Xu, Cao (May 2018) Control of flowering and inflorescence architecture in tomato by synergistic interactions between ALOG transcription factors. Journal of Genetics and Genomics, 45 (10). pp. 557-560. ISSN 1673-8527

J

Jiang, K., Liberatore, K. L., Park, S. J., Alvarez, J. P., Lippman, Z. B. (December 2013) Tomato yield heterosis is triggered by a dosage sensitivity of the florigen pathway that fine-tunes shoot architecture. PLoS Genetics, 9 (12). e1004043. ISSN 1553-7390

Jiao, Y., Lee, Y. K., Gladman, N., Chopra, R., Christensen, S. A., Regulski, M., Burow, G., Hayes, C., Burke, J., Ware, D., Xin, Z. (February 2018) MSD1 regulates pedicellate spikelet fertility in sorghum through the jasmonic acid pathway. Nat Commun, 9 (1). p. 822. ISSN 2041-1723

K

Kim, Da Eun, Jeong, Jin-hee, Kang, Yu Mi, Park, Young-Hoon, Lee, Yong-Jae, Kang, Jum-soon, Choi, Young-Whan, Son, Beung-Gu, Kim, Sun Tae, Jackson, Dave, Je, Byoung Il (January 2022) The Impact of Fasciation on Maize Inflorescence Architecture. Journal of Plant Biology. ISSN 1226-9239

Klein, Harry, Gallagher, Joseph, Demesa-Arevalo, Edgar, Abraham-Juárez, María Jazmín, Heeney, Michelle, Feil, Regina, Lunn, John E, Xiao, Yuguo, Chuck, George, Whipple, Clinton, Jackson, David, Bartlett, Madelaine (January 2022) Recruitment of an ancient branching program to suppress carpel development in maize flowers. Proceedings of the National Academy of Sciences of USA, 119 (2). e2115871119-e2115871119. ISSN 0027-8424

Kwon, C. T., Heo, J., Lemmon, Z. H., Capua, Y., Hutton, S. F., Van Eck, J., Park, S. J., Lippman, Z. B. (December 2019) Rapid customization of Solanaceae fruit crops for urban agriculture. Nat Biotechnol, 38. pp. 182-188. ISSN 1087-0156

L

Lemmon, Z. H., Park, S. J., Jiang, K., Van Eck, J., Schatz, M. C., Lippman, Z. B. (November 2016) The evolution of inflorescence diversity in the nightshades and heterochrony during meristem maturation. Genome Res, 26 (12). pp. 1676-1686. ISSN 1549-5469 (Electronic)1088-9051 (Linking) (Public Dataset)

Liberatore, Katie (April 2014) Investigating the roles of gene dosage and stem cell maintenance in the regulation of plant shoot and inflorescence architecture. PhD thesis, Cold Spring Harbor Laboratory.

Lindsay, Penelope, Swentowsky, Kyle W, Jackson, David (December 2023) Cultivating Potential: Harnessing Plant Stem Cells for Agricultural Crop Improvement. Molecular Plant. ISSN 1674-2052

Lippman, Z. (November 2012) Talk from Zach Lippman at the Cold Spring Harbor Laboratory In-House Symposium (2012). [Video] (Unpublished)

Lippman, Z. B., Cohen, O., Alvarez, J. P., Abu-Abied, M., Pekker, I., Paran, I., Eshed, Y., Zamir, D. (November 2008) The Making of a Compound Inflorescence in Tomato and Related Nightshades. PLoS Biology, 6 (11). e288.

Liu, L, Lindsay, PL, Jackson, D (May 2021) Next generation cereal crop yield enhancement: From knowledge of inflorescence development to practical engineering by genome editing. International Journal of Molecular Sciences, 22 (10). p. 5167. ISSN 1661-6596

P

Park, Soon Ju, Eshed, Yuval, Lippman, Zachary B. (February 2014) Meristem maturation and inflorescence architecture-lessons from the Solanaceae. Current Opinion in Plant Biology, 17. pp. 70-77. ISSN 1369-5266

S

Skirpan, A., Culler, A. H., Gallavotti, A., Jackson, D., Cohen, J. D., McSteen, P. (March 2009) BARREN INFLORESCENCE2 Interaction with ZmPIN1a Suggests a Role in Auxin Transport During Maize Inflorescence Development. Plant and Cell Physiology, 50 (3). pp. 652-657. ISSN 0032-0781

Sun, Yonghao, Dong, Liang, Kang, Lu, Zhong, Wanshun, Jackson, David, Yang, Fang (June 2024) Progressive meristem and single-cell transcriptomes reveal the regulatory mechanisms underlying maize inflorescence development and sex differentiation. Molecular Plant, 17 (7). pp. 1019-1037. ISSN 1674-2052 (Public Dataset)

Sun, Yonghao, Dong, Liang, Zhang, Ying, Lin, Da, Xu, Weize, Ke, Changxiong, Han, Linqian, Deng, Lulu, Li, Guoliang, Jackson, David, Li, Xingwang, Yang, Fang (June 2020) 3D genome architecture coordinates trans and cis regulation of differentially expressed ear and tassel genes in maize. Genome Biology, 21 (1). p. 143. ISSN 1474-760X

T

Tanaka, W., Pautler, M., Jackson, D., Hirano, H. Y. (March 2013) Grass meristems II: Inflorescence architecture, flower development and meristem fate. Plant and Cell Physiology, 54 (3). pp. 313-324. ISSN 00320781 (ISSN)

V

Venglat, S. P., Dumonceaux, T., Rozwadowski, K., Parnell, L., Babic, V., Keller, W., Martienssen, R., Selvaraj, G., Datla, R. (April 2002) The homeobox gene BREVIPEDICELLUS is a key regulator of inflorescence architecture in Arabidopsis. Proceedings of the National Academy of Sciences of the United States of America, 99 (7). pp. 4730-5. ISSN 0027-8424 (Print)0027-8424 (Linking)

Vollbrecht, E., Springer, P. S., Goh, L., Buckler, E. S. th, Martienssen, R. (August 2005) Architecture of floral branch systems in maize and related grasses. Nature, 436 (7054). pp. 1119-26. ISSN 1476-4687 (Electronic)

X

Xu, C., Park, S. J., Van Eck, J., Lippman, Z. B. (September 2016) Control of inflorescence architecture in tomato by BTB/POZ transcriptional regulators. Genes Dev, 30 (18). pp. 2048-2061. ISSN 0890-9369 (Print)0890-9369 (Linking)

Y

Yang, RS, Xu, F, Wang, YM, Zhong, WS, Dong, L, Shi, YN, Tang, TJ, Sheng, HJ, Jackson, D, Yang, F (December 2021) Glutaredoxins regulate maize inflorescence meristem development via redox control of TGA transcriptional activity. Nature Plants. ISSN 2055-0278

Z

Zhu, Chuanmei, Liu, Lei, Crowell, Olivia, Zhao, Hui, Brutnell, Thomas P, Jackson, David, Kellogg, Elizabeth A (2021) The CLV3 Homolog in Setaria viridis Selectively Controls Inflorescence Meristem Size. Frontiers in Plant Science, 12. p. 636749. ISSN 1664-462X

This list was generated on Thu Nov 28 01:06:17 2024 EST.