Hormon adalah pembawa pesan kimiawi yang disintesis di suatu bagian untuk dikirim ke bagian lain. 5 jenis hormon utama yang mempengaruhi pertumbuhan tumbuhan 1. Auxin Auxin adalah hormon yang memungkinkan tumbuhan untuk bengkok ke arah cahaya (disebut juga fototropisme). Tropisme adalah pergerakan suatu organisme karena adanya rangsangan eksternal. Hormon auksin diproduksi di ujung batang dan bergerak ke bawah, oleh karena itu jika kita memotong ujung batang, tumbuhan akan kehilangan kemampuannya untuk tumbuh ke arah cahaya. 2. Giberelin Hormon giberelin sangat penting pada beberapa tahap perkembangan tumbuhan. Secara singkatnya hormon ini dibutuhkan tumbuhan untuk berkecambah,regulas dan membantu regulasinya, mempercepat perpanjangan internodus (batang yang terletak diantara ruas) yang merupakan tempat daun-daun tumbuh. 3. Sitokinin Hormon sitokinin mencegah tumbuhan dari penuaan. Hormon ini juga berperan penting dalam menghasilkan organ tumbuhan baru (root-shoot), diproduksi di meristem apikal akar atau ujung akar serta terbawa bersama air melalui jaringan xilem secara tidak langsung. Tumbuhan menggunakan rasio auksin dan sitokinin untuk menentukan pembentukan ke arah bawah (root) atau ke arah atas (shoot). Kelebihan auksin mendukung pembentukan ke bawah (root), sedangkan kelebihan kelebihan sitokinin mendukung pembentukan ke atas (shoot). Sitokinin juga bekerja sama dengan hormon yang akan dibahas berikutnya. 4. Etilen Etilen dibutuhkan untuk proses abscission daun, bunga atau buah. Etilen adalah hormon yang dapat merangsang pemasakan. Jika buah masak disatukan dengan buah lainnya yang belum masak, buah tersebut akan masak lebih cepat. Etilen adalah gas dengan daya larut rendah dalam air yang terdifusi keluar dari sel dan sebagian besarnya dihasilkan oleh sel yang tumbuh dan membelah dengan cepat. Ini penting untuk tanaman yang berkecambah karena produksi hormon etilen yang tinggi akan menghambat perkembangan daun. 5. Asam Absisat Asam Absisat adalah hormon yang menandakan dehidrasi. Hormon ini disintesis di kloroplas pada daun saat tumbuhan stres air, bergerak melalui xilem dan floem dan menyebabkan daun menutup stomata untuk mengurangi kehilangan air dari fototranspirasi. Itulah lima jenis hormon yang mempengaruhi pertumbuhan tanaman, meskipun masih banyak hormon yang lainnya.
I litterly learned a lot with this channel in very less time . Thank you from the bottom of my heart and I wish this channel will surely reach more subscribers.
This lectures was done 5 years ago and i hope you're still making more lecture videos. Im from Nigeria and i enjoyed your lecture. I just hope you're still in the system of doing this.. bless you greatly❤❤
More auxins promotes more roots? I thought the opposite. I thought cytokinins produced more roots and auxins promoted shoots? Could you explain any further?
Does anyone know how to extract and detect (maybe with chromatography...?) the auxin, gibberellin, and cytokinin levels of the plant with common high school laboratory apparatus? I think I could do the avena curvature test for auxin... but I'm wondering how to get quantitative data on the IAA amount. Thanks.
Hello I'm looking for information regarding slowing down the growth of large hedges for some of my customers I really hope that you can share some information on TH-cam about this and how it works
1:25 if the plant has 5 petals doesnt that mean its dicot and should have a taproot system i am not tryna point out a mistake i just wanna see if im kinda smart and actually know some stuff lol
Fast narration.let it be slow for the sake of students. More videos on individual topics on harmones for the benefit of students. Thank you very much for your help.
Noted! Thank you very much for the suggestions. I will attempt to make the narration slower in future videos and will try to make more videos on plant hormones :-)
De novo abscisic acid (ABA) synthesis is initiated in plastids via the oxidative cleavage of xanthophylls. The cleaved product xanthoxin moves to the cytoplasm and is modified further in the cytoplasm to produce ABA. ABA is inactivated through multiple pathways either by oxidation or conjugation. Glucose-conjugated ABA (ABA-GE) and phaseic acid (or it's reduced form dihydrophaseic acid) are the major inactive forms of ABA. Lee et al. (2006)demonstrate that the intracellular β-glucosidase AtBG1 cleaves ABA-GE to produce ABA as a new route of ABA production under osmotic and drought stress conditions and during day/night cycles. The activity of AtBG1 is enhanced by the polymerization of this enzyme, which is induced by these environmental factors. Therefore, the cleavage of ABA-GE is proposed as an alternative route for rapid ABA synthesis in response to changes in stress and light conditions.
De novo abscisic acid (ABA) synthesis is initiated in plastids via the oxidative cleavage of xanthophylls. The cleaved product xanthoxin moves to the cytoplasm and is modified further in the cytoplasm to produce ABA. ABA is inactivated through multiple pathways either by oxidation or conjugation. Glucose-conjugated ABA (ABA-GE) and phaseic acid (or it's reduced form dihydrophaseic acid) are the major inactive forms of ABA. Lee et al. (2006)demonstrate that the intracellular β-glucosidase AtBG1 cleaves ABA-GE to produce ABA as a new route of ABA production under osmotic and drought stress conditions and during day/night cycles. The activity of AtBG1 is enhanced by the polymerization of this enzyme, which is induced by these environmental factors. Therefore, the cleavage of ABA-GE is proposed as an alternative route for rapid ABA synthesis in response to changes in stress and light conditions.
That was two lectures condensed into 3 minutes, super helpful!
It's like the lectures are just throwing facts without giving explanations
Same
I love a video that is short and to the point. Thank you for this!!
This is the best video I've seen about plant hormones, and its done in a way that a child could understand it.
Hormon adalah pembawa pesan kimiawi yang disintesis di suatu bagian untuk dikirim ke bagian lain.
5 jenis hormon utama yang mempengaruhi pertumbuhan tumbuhan
1. Auxin
Auxin adalah hormon yang memungkinkan tumbuhan untuk bengkok ke arah cahaya (disebut juga fototropisme). Tropisme adalah pergerakan suatu organisme karena adanya rangsangan eksternal. Hormon auksin diproduksi di ujung batang dan bergerak ke bawah, oleh karena itu jika kita memotong ujung batang, tumbuhan akan kehilangan kemampuannya untuk tumbuh ke arah cahaya.
2. Giberelin
Hormon giberelin sangat penting pada beberapa tahap perkembangan tumbuhan. Secara singkatnya hormon ini dibutuhkan tumbuhan untuk berkecambah,regulas dan membantu regulasinya, mempercepat perpanjangan internodus (batang yang terletak diantara ruas) yang merupakan tempat daun-daun tumbuh.
3. Sitokinin
Hormon sitokinin mencegah tumbuhan dari penuaan. Hormon ini juga berperan penting dalam menghasilkan organ tumbuhan baru (root-shoot), diproduksi di meristem apikal akar atau ujung akar serta terbawa bersama air melalui jaringan xilem secara tidak langsung.
Tumbuhan menggunakan rasio auksin dan sitokinin untuk menentukan pembentukan ke arah bawah (root) atau ke arah atas (shoot). Kelebihan auksin mendukung pembentukan ke bawah (root), sedangkan kelebihan kelebihan sitokinin mendukung pembentukan ke atas (shoot). Sitokinin juga bekerja sama dengan hormon yang akan dibahas berikutnya.
4. Etilen
Etilen dibutuhkan untuk proses abscission daun, bunga atau buah. Etilen adalah hormon yang dapat merangsang pemasakan. Jika buah masak disatukan dengan buah lainnya yang belum masak, buah tersebut akan masak lebih cepat. Etilen adalah gas dengan daya larut rendah dalam air yang terdifusi keluar dari sel dan sebagian besarnya dihasilkan oleh sel yang tumbuh dan membelah dengan cepat. Ini penting untuk tanaman yang berkecambah karena produksi hormon etilen yang tinggi akan menghambat perkembangan daun.
5. Asam Absisat
Asam Absisat adalah hormon yang menandakan dehidrasi. Hormon ini disintesis di kloroplas pada daun saat tumbuhan stres air, bergerak melalui xilem dan floem dan menyebabkan daun menutup stomata untuk mengurangi kehilangan air dari fototranspirasi.
Itulah lima jenis hormon yang mempengaruhi pertumbuhan tanaman, meskipun masih banyak hormon yang lainnya.
I litterly learned a lot with this channel in very less time .
Thank you from the bottom of my heart and I wish this channel will surely reach more subscribers.
Thanks ... direct and to the point. Much easier for my students to follow.
short and clear explanation!! Great stuff my teachers can't even teach this properly in university
Really great quick review of the plant hormones! Love it!
Thank you so much! I'm glad you like it!
This lectures was done 5 years ago and i hope you're still making more lecture videos. Im from Nigeria and i enjoyed your lecture. I just hope you're still in the system of doing this.. bless you greatly❤❤
I feel very happy to see this review of Plant hormones..... it's beneficial.....
This is really helpful! Thanks! I love you pictures as well.
The video is just amazing.... I loved it, it explained me the points I was unable to understand... Thanku so much😊😊
So glad it was helpful for you! :-D :-D :-D
Really helpful. You covered a lot of thing in just 3 minutes
Sahi ha
Life is like 3 mintues of smell of girls passing by on trains and thats smell goes away and we die from condom war
@@godhelpme8977 💘
Relatable 😞
Oi meus amigos. Parabéns por este vídeo que assistir hoje, ficou muito bom! 👍👍
Thank you so much!!! This really helped me grasp the idea of plant hormones.
Nice video! 🎉
Excellent lecture
very well done
Kısa ve öz olmuş çok akılda kalıcı 🌻
Short duration of topic is really good.
Was a great explanation ☺️. Well explained hope will do more videos 🙂 for sure
Thank you sir for such a short video and clear explanation
really helpful for my revision. thank you so much
Excellent 👍
Really well-done video, the animations support the narration nicely.
Please make videos on Absorption,Transpirationand Photosynthesis
Hi Rifa! :-) Thanks for the suggestions! Will add to my list! I have a video on photosynthesis: th-cam.com/video/DlZh_Gzb7tI/w-d-xo.html
Thank you this was a wonderful explanation
this was extremely helpful, thank you so much!
Thanks for a wonderful explanation
It shows me a good memory.
Thank you
awesome! Which of these is relevant for cannabis? Anyone used these on cannabis?
More auxins promotes more roots? I thought the opposite. I thought cytokinins produced more roots and auxins promoted shoots? Could you explain any further?
Same question.
it does
Thank you so much! This is super short and informative
Does anyone know how to extract and detect (maybe with chromatography...?) the auxin, gibberellin, and cytokinin levels of the plant with common high school laboratory apparatus? I think I could do the avena curvature test for auxin... but I'm wondering how to get quantitative data on the IAA amount. Thanks.
Very very good explanation
How to use it is by irrigation or spraying for each hormone, please.
Small but very informative.👍
thank you so much this video is amazing
Thanks for yours kind video clips
What program did you use to make this video?
Hello I'm looking for information regarding slowing down the growth of large hedges for some of my customers I really hope that you can share some information on TH-cam about this and how it works
Thank you
1:25 if the plant has 5 petals doesnt that mean its dicot and should have a taproot system i am not tryna point out a mistake i just wanna see if im kinda smart and actually know some stuff lol
Good explanation
Great content. Any experience with reversing the sex of female plants to produce pollen?
do you know if there is any ethylene qualitative indicator or ethylene tablets available?
Excellent mam
Straight to the main points makes easy 😉😉😉
Amazing💜💜
*Amazing!!!! Thanks for the info !!!*
V Nys informative video .... plzz give a video about cribs cycle c3 c4 and cam pathway....thnku
I put it on my to do list :-)
I have covered the C4 pathway though! th-cam.com/video/Lhd7WbWV8aw/w-d-xo.html
😅@@NeuralAcademy
super video
😔😔
anyone else sent here by their science teacher
Me
thanks for sharing this video
Tips how to love science?😭😓
Where do plant hormones specially come from?
Thank you!
Great👍👍
Helpful
I came here because my teacher told me to
Is it for class 11??
It is for 10
Tq
is this ms. Shire
Nope
Fast narration.let it be slow for the sake of students. More videos on individual topics on harmones for the benefit of students. Thank you very much for your help.
Noted! Thank you very much for the suggestions. I will attempt to make the narration slower in future videos and will try to make more videos on plant hormones :-)
🙏🙏🙏
De novo abscisic acid (ABA) synthesis is initiated in plastids via the oxidative cleavage of xanthophylls. The cleaved product xanthoxin moves to the cytoplasm and is modified further in the cytoplasm to produce ABA. ABA is inactivated through multiple pathways either by oxidation or conjugation. Glucose-conjugated ABA (ABA-GE) and phaseic acid (or it's reduced form dihydrophaseic acid) are the major inactive forms of ABA. Lee et al. (2006)demonstrate that the intracellular β-glucosidase AtBG1 cleaves ABA-GE to produce ABA as a new route of ABA production under osmotic and drought stress conditions and during day/night cycles. The activity of AtBG1 is enhanced by the polymerization of this enzyme, which is induced by these environmental factors. Therefore, the cleavage of ABA-GE is proposed as an alternative route for rapid ABA synthesis in response to changes in stress and light conditions.
I m not able to understand the human anatomy and physiology chapters
Please check out my videos - I have a few videos on anatomy. Are there any other anatomy topics you would like me to cover?
Vimalates like adi
Potato
Court closed he needed birth certificate skate board far ne to promote a kid hope he did get it cause aka 47 make a killer wow Javier
Не дид мнау
Latifa Shakhobova жабайы
У меня кот на Английском лучше говорит.
Anyone else here due to the low fruit yield of the 'Naked and Afraid' locations?
De novo abscisic acid (ABA) synthesis is initiated in plastids via the oxidative cleavage of xanthophylls. The cleaved product xanthoxin moves to the cytoplasm and is modified further in the cytoplasm to produce ABA. ABA is inactivated through multiple pathways either by oxidation or conjugation. Glucose-conjugated ABA (ABA-GE) and phaseic acid (or it's reduced form dihydrophaseic acid) are the major inactive forms of ABA. Lee et al. (2006)demonstrate that the intracellular β-glucosidase AtBG1 cleaves ABA-GE to produce ABA as a new route of ABA production under osmotic and drought stress conditions and during day/night cycles. The activity of AtBG1 is enhanced by the polymerization of this enzyme, which is induced by these environmental factors. Therefore, the cleavage of ABA-GE is proposed as an alternative route for rapid ABA synthesis in response to changes in stress and light conditions.